CMS-DP-2017/023

CMS ECAL Laser monitoring up to 2017, pi0/eta >gammagamma spectrum and monitoring, ES calibration

Abstract: CMS ECAL Laser monitoring up to 2017, pi0/eta >gammagamma spectrum and monitoring, ES calibration.

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Figure Caption
pdf version
histories 2011-2012-2015-2016-2017 170620.png
Relative response to laser light (440 nm in 2011 and 447 nm from 2012 onwards) injected in the ECAL crystals, measured by the ECAL laser monitoring system, averaged over all crystals in bins of pseudorapidity, for the 2011, 2012, 2015, 2016 and 2017 data taking periods, with magnetic field at 3.8 T. The response change observed in the ECAL channels is up to 10% in the barrel and it reaches up to 50% at η ~ 2.5, the limit of the tracker acceptance. The response change is up to 90% in the region closest to the beam pipe. The recovery of the crystal response during the periods without collisions is visible. These measurements performed every 40 minutes are used to correct the physics data. This is an update of the plots appearing in CMS-DP-2012/007, CMS-DP-2012/015, CMS-DP-2015/016, CMS-DP-2015/063, CMS-DP-2016/031and CMS-DP-2017/003 and includes measurements taken up to June 2017. The bottom plot shows the instantaneous LHC luminosity delivered during this time period. A zoomed version highlighting the last months is reported as well.
pdf version
histories zoom2017.png
Relative response to laser light (440 nm in 2011 and 447 nm from 2012 onwards) injected in the ECAL crystals, measured by the ECAL laser monitoring system, averaged over all crystals in bins of pseudorapidity, for the 2011, 2012, 2015, 2016 and 2017 data taking periods, with magnetic field at 3.8 T. The response change observed in the ECAL channels is up to 10% in the barrel and it reaches up to 50% at η ~ 2.5, the limit of the tracker acceptance. The response change is up to 90% in the region closest to the beam pipe. The recovery of the crystal response during the periods without collisions is visible. These measurements performed every 40 minutes are used to correct the physics data. This is an update of the plots appearing in CMS-DP-2012/007, CMS-DP-2012/015, CMS-DP-2015/016, CMS-DP-2015/063, CMS-DP-2016/031and CMS-DP-2017/003 and includes measurements taken up to June 2017. The bottom plot shows the instantaneous LHC luminosity delivered during this time period. A zoomed version highlighting the last months is reported as well.
pdf version
pi0MassEBxtal.png
Examples of the invariant mass of photon pairs with one photon in one fixed crystal of the ECAL Barrel, at η=0.5, (left plot), and of the ECAL Endcap, at η=1.7, (right plot), in the mass range of the π0 , taken in June 2017, corresponding to an integrated luminosity of approximately 2.5 fb-1 . These events are collected by CMS with a dedicated trigger at a rate of 8 (6) kHz in the Barrel (Endcap), allowing to save only the minimal information of the events, in particular energy deposits in the ECAL crystals surrounding a possible π0 candidate. For the candidates in the Endcaps in the region covered by the Preshower (ES, 1.7< η <2.55), the position of the ES is used. These events are used as prompt feedback to monitor the effectiveness of the laser monitoring calibration and will be used to intercalibrate the energy of ECAL crystals. The π0 invariant mass plot is built with uncalibrated energy scale.
pdf version
pi0MassEExtal.png
Examples of the invariant mass of photon pairs with one photon in one fixed crystal of the ECAL Barrel, at η=0.5, (left plot), and of the ECAL Endcap, at η=1.7, (right plot), in the mass range of the π0 , taken in June 2017, corresponding to an integrated luminosity of approximately 2.5 fb-1 . These events are collected by CMS with a dedicated trigger at a rate of 8 (6) kHz in the Barrel (Endcap), allowing to save only the minimal information of the events, in particular energy deposits in the ECAL crystals surrounding a possible π0 candidate. For the candidates in the Endcaps in the region covered by the Preshower (ES, 1.7< η <2.55), the position of the ES is used. These events are used as prompt feedback to monitor the effectiveness of the laser monitoring calibration and will be used to inter-calibrate the energy of ECAL crystals. The π0 invariant mass plot is built with uncalibrated energy scale.
pdf version
etaMassEBxtal.png
Example of the invariant mass of photon pairs with one photon in one fixed crystal of the ECAL Barrel at η=0.04 in the mass range of the η, taken in June 2017, corresponding to an integrated luminosity of approximately 2.5 fb-1. These events are collected by CMS with a dedicated trigger at a rate of 8 kHz, allowing to save only the minimal information of the events, in particular energy deposits in the ECAL crystals surrounding a possible η candidate. These events are used as prompt feedback to monitor the effectiveness of the laser monitoring calibration and will be used to inter-calibrate the energy of ECAL crystals. The h invariant mass plot is built with uncalibrated energy scale.
pdf version
Fill 5830.png
Stability of the relative energy scale measured from the invariant mass distribution of π0 > gg decays in the ECAL Barrel.The energy scale is measured by fitting the invariant mass distribution of approximately 200,000 photon pairs in the mass range of the π0 meson. Each point is obtained from a fit to approximately 8 minutes of data taking. The error bars represent the statistical errors on the fitted peak position. The energy scale is plotted as a function of time, over a period of 3 hours during an LHC fill, for data recorded on 14th June 2017 during LHC fill 5830. The plot shows the data with (green points) and without (red points) light monitoring corrections applied. The right-hand panel shows the projected relative energy scales.
pdf version
Dist2017A Z0 P0 X02 Y18.png
The two planes of the Preshower (ES), coupled with the EE crystals, forms a sampling calorimeter. The ES essentially counts the number of charged particles passing through the layers of silicon, which is an estimate of the amount of energy deposited in the ES lead absorbers. We use charged particles with momentum nearly close to minimum ionizing to calibrate the ES, so for simplicity we refer to them as “MIPs”. The design-goal accuracy of the channel-by-channel calibration is set to 5%. This corresponds to a contribution of about 0.25% to the overall EE+ES energy resolution for high-energy electrons since only a few percent of electron/photon energy is deposited in ES. The sources of response variation (sensor-to-sensor and channel-to-channel) are the sensor thickness seen by the incident particles (depends on angle of incidence), gain of the front-end electronics chain, and charge collection efficiency which varies with the radiation damage. The plot shows the energy distribution for a silicon sensor. The red histogram represents the real data while the black line represents the fit. The data were obtained from the 2017A run period. The distribution is fitted by a Landau function (to model the signal) convoluted with a Gaussian function (to model the intrinsic noise). The equivalent MIP for this sensor is 52.8 ADC counts.

-- AndreaMassironi - 2017-07-04

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PDFpdf Dist2017A_Z0_P0_X02_Y18.pdf r1 manage 15.2 K 2017-07-05 - 13:29 AndreaMassironi  
PNGpng Dist2017A_Z0_P0_X02_Y18.png r1 manage 28.3 K 2017-07-05 - 13:29 AndreaMassironi  
PNGpng Fill_5830.png r1 manage 31.4 K 2017-07-05 - 13:29 AndreaMassironi  
PDFpdf etaMassEBxtal.pdf r1 manage 21.9 K 2017-07-05 - 15:02 AndreaMassironi  
PNGpng etaMassEBxtal.png r1 manage 23.6 K 2017-07-05 - 13:29 AndreaMassironi  
PDFpdf histories_2011-2012-2015-2016-2017_170620.pdf r1 manage 4635.7 K 2017-07-05 - 13:29 AndreaMassironi  
PNGpng histories_2011-2012-2015-2016-2017_170620.png r1 manage 121.4 K 2017-07-05 - 13:29 AndreaMassironi  
PDFpdf histories_zoom2017.pdf r1 manage 2124.4 K 2017-07-05 - 13:29 AndreaMassironi  
PNGpng histories_zoom2017.png r1 manage 112.0 K 2017-07-05 - 13:29 AndreaMassironi  
PDFpdf pi0MassEBxtal.pdf r1 manage 18.6 K 2017-07-05 - 13:29 AndreaMassironi  
PNGpng pi0MassEBxtal.png r1 manage 23.2 K 2017-07-05 - 13:29 AndreaMassironi  
PDFpdf pi0MassEExtal.pdf r1 manage 19.8 K 2017-07-05 - 13:29 AndreaMassironi  
PNGpng pi0MassEExtal.png r1 manage 24.8 K 2017-07-05 - 13:29 AndreaMassironi  

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Topic revision: r4 - 2017-07-05 - AndreaMassironi
 
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