Difference: HLTemuAllRun2 (1 vs. 5)

Revision 52019-08-23 - ElisabettaGallo

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META TOPICPARENT name="HighLevelTriggerRunIIResults"

Run 2 Trigger Perfomance for emu Triggers ( CMS DP-2019/025)

Line: 8 to 8
 
Changed:
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Mu23_Ele12_legEle_pt.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_pt.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legEle_pt.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The plotted uncertainties are statistical only. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_pt.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The plotted uncertainties are statistical only. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legEle_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event)with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unles specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET gt 12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event)with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unles specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET gt 12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legEle_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legEle_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legEle_eta_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_eta_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legEle_nvtx.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the event in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_nvtx.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the event in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legEle_nvtx_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_nvtx_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legEle_nvtx.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_nvtx.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legEle_nvtx_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset - corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_nvtx_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset - corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legMu_pt.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between thetwo muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_pt.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between thetwo muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legMu_pt.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_pt.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legMu_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The plotted uncertainties are statistical only. HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The plotted uncertainties are statistical only. HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legMu_eta_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_eta_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legMu_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only. HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only. HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legMu_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon Leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon Leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legMu_nvtx.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_nvtx.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu12_Ele23_legMu_nvtx_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_nvtx_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legMu_nvtx.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_nvtx.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_legMu_nvtx_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_nvtx_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 

Revision 42019-08-21 - ElisabettaGallo

Line: 1 to 1
 
META TOPICPARENT name="HighLevelTriggerRunIIResults"

Run 2 Trigger Perfomance for emu Triggers ( CMS DP-2019/025)

Line: 15 to 15
 
Mu23_Ele12_legEle_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event)with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unles specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET gt 12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
Changed:
<
<
Mu23_Ele12_legEle_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg*
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 

Mu12_Ele23_legEle_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
Line: 37 to 37
 
Mu12_Ele23_legMu_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The plotted uncertainties are statistical only. HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
Changed:
<
<
pag30.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_eta_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag32.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only. HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only. HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag34.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon Leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon Leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag36.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_nvtx.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag38.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_nvtx_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag40.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_nvtx.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
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pag42.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_nvtx_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 

Revision 32019-08-21 - ElisabettaGallo

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META TOPICPARENT name="HighLevelTriggerRunIIResults"

Run 2 Trigger Perfomance for emu Triggers ( CMS DP-2019/025)

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Ele23_Ele12_leg2_pt_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_pt.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Ele23_Ele12_leg1_pt_efficiency.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The plotted uncertainties are statistical only. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_pt.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The plotted uncertainties are statistical only. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Ele23_Ele12_leg2_eta_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event)with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unles specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET gt 12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_eta.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event)with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unles specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET gt 12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Mu23_Ele12_leg2_eta_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg*
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_eta_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg*
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Ele23_Ele12_leg1_eta_efficiency.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
Ele23_Ele12_leg2_pt_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_eta_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Deleted:
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pag16.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the event in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag18.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_nvtx.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the event in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
<
<
pag20.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legEle_nvtx_50GeV.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
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pag22.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset - corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_nvtx.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
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pag24.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between thetwo muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legEle_nvtx_50GeV.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset - corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
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pag26.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu12_Ele23_legMu_pt.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between thetwo muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
Changed:
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pag28.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The plotted uncertainties are statistical only. HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
>
>
Mu23_Ele12_legMu_pt.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

Mu12_Ele23_legMu_eta.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The plotted uncertainties are statistical only. HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
 
pag30.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur
Line: 55 to 56
  -- ElisabettaGallo - 2019-08-09
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Revision 22019-08-16 - ElisabettaGallo

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META TOPICPARENT name="HighLevelTriggerRunIIResults"
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Run 2 Trigger Perfomance for emu Triggers ( CMS DP-2019/025)

The trigger efficiency for cross triggers has been measured using the Tag and Probe method by acquiring dilepton events having same flavour and opposite charge such that the invariant mass of the combination (tag and probe lepton) is consistent with the Z mass, in a dilepton mass window of 60-120 GeV. Details can be found the DPS Note CMS-DP-2019-025.


Ele23_Ele12_leg2_pt_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

Ele23_Ele12_leg1_pt_efficiency.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The plotted uncertainties are statistical only. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

Ele23_Ele12_leg2_eta_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event)with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unles specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET gt 12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur

Mu23_Ele12_leg2_eta_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg*
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT . The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

Ele23_Ele12_leg1_eta_efficiency.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the reconstructed electron pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur

Ele23_Ele12_leg2_pt_efficiency.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ: electron Leg
Electron trigger efficiency as a function of the reconstructed electron transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity of 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

pag16.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the event in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

pag18.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele12_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

pag20.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η) < 2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018 .
[Get pdf version]
Contact: Amandeep Kaur

pag22.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : electron leg
Electron trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset - corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→ee event) with respect to mva-based tight electron identification.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The reconstructed electron pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.5 unless specified. The plotted uncertainties are statistical only.
HLT_Ele23_CaloIdL_TrackIdL_IsoVL is the electron leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the electron. The “DZ” requirement on the distance of closest approach in Z direction between the two electron tracks is ~ 99.5% efficient. Electron triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2016 as the tracker alignment was much better in 2016 and also issues with new pixel detector were there in 2017 and 2018.
[Get pdf version]
Contact: Amandeep Kaur

pag24.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between thetwo muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag26.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon transverse momentum (pT) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.The plotted uncertainties are statistical only. The last bin includes the overflow, i.e. also probes with pT >200 GeV.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag28.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts. The plotted uncertainties are statistical only. HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT. The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag30.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified.It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag32.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only. HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag34.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon Leg
Muon trigger efficiency as a function of the reconstructed muon pseudo rapidity (η) in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag36.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag38.png HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT.
HLT_Mu12_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >12 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag40.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up - in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed muon transverse momentum (pT) is at least 2 GeV higher than the trigger threshold to show the behavior with typical analysis cuts.The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

pag42.png HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ : muon leg
Muon trigger efficiency as a function of the number of reconstructed vertices - that is used to estimate the amount of pile-up in the full Run II dataset corresponding to an integrated luminosity 138 fb-1 collected at √s=13 TeV. The efficiency is measured by tag-and-probe method (in Z→μμ event) with respect to cut-based tight muon identification and tight isolation. The reconstructed muon pseudorapidity is restricted to the acceptance of the trigger path that is abs(η)<2.4 unless specified. It is required that the reconstructed electron transverse momentum (pT) is at least 50 GeV to show the behaviour on the efficiency plateau in pT. The plotted uncertainties are statistical only.
HLT_Mu23_TrkIsoVVL_CaloIdL_TrackIdL_IsoVL is the muon leg of the lowest threshold unprescaled cross-lepton trigger HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ that requires ET >23 GeV for the muon. The “DZ” requirement on the distance of closest approach in Z direction between the two muon tracks is ~ 99.5% efficient. Muon triggers are seeded via a logical OR of various level-1 trigger items. At the highest instantaneous luminosities, the level-1 ET threshold was higher than the HLT threshold contributing to the delayed turn-on of the efficiency as a function of pT . The efficiency is better in 2018 as compared to 2016 and 2017 due to better muon reconstruction performance in 2018 and phase-I pixel performance was much better in 2018 than 2017. As 2017 suffered from DCDC converter issues and extended commissioning period in the beginning of 2017.
[Get pdf version]
Contact: Amandeep Kaur

 -- ElisabettaGallo - 2019-08-09 \ No newline at end of file
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Revision 12019-08-09 - ElisabettaGallo

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META TOPICPARENT name="HighLevelTriggerRunIIResults"
-- ElisabettaGallo - 2019-08-09
 
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