History of LHCTopWG Summary Plots:

Top-pair production cross-section as a function of centre-of-mass energy

Figure	Description
Pair production cross section
	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF September 2019

Pair production cross section

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF

September 2019

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF September 2018

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF May 2018

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF November 2017

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF September 2017

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF May 2017

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF

May 2017

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF Aug 2016

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF

Aug 2016

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF May 2016

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF

May 2016

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF March 2016

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF

March 2016

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF EPS September 2015

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF
EPS

September 2015

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF EPS May 2015

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF
EPS

May 2015

	Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG PDF September 2014

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity.
PNG
PDF

September 2014

-- MartijnMulders - 2015-10-19 -- ReinhardSchwienhorst - 2019-09-23

Attachments

Topic attachments
I	Attachment	History	Action	Size	Date	Who
pdf	lhctopwg_ttxsec_sqrts_aug2016.pdf	r1	manage	28.1 K	2016-08-04 - 16:43	MartijnMulders
png	lhctopwg_ttxsec_sqrts_aug2016.png	r1	manage	123.6 K	2016-08-04 - 16:43	MartijnMulders
pdf	lhctopwg_ttxsec_sqrts_mar2016.pdf	r1	manage	20.9 K	2016-03-22 - 15:25	MartijnMulders
png	lhctopwg_ttxsec_sqrts_mar2016.png	r1	manage	163.0 K	2016-03-22 - 15:25	MartijnMulders
pdf	lhctopwg_ttxsec_sqrts_may2016.pdf	r1	manage	21.1 K	2016-05-26 - 18:44	MartijnMulders
png	lhctopwg_ttxsec_sqrts_may2016.png	r1	manage	293.3 K	2016-05-26 - 18:44	MartijnMulders
eps	lhctopwg_ttxsec_sqrts_sep2015.eps	r1	manage	28.0 K	2015-10-19 - 17:30	MartijnMulders
pdf	lhctopwg_ttxsec_sqrts_sep2015.pdf	r1	manage	20.9 K	2015-10-19 - 17:30	MartijnMulders
png	lhctopwg_ttxsec_sqrts_sep2015.png	r1	manage	293.5 K	2015-10-19 - 17:34	MartijnMulders
pdf	toplhcwg_ttxsec_sqrts.pdf	r1	manage	9.8 K	2015-10-19 - 15:53	MartijnMulders
png	toplhcwg_ttxsec_sqrts.png	r1	manage	196.4 K	2015-10-19 - 15:53	MartijnMulders
eps	toplhcwg_ttxsec_sqrts_may2015.eps	r1	manage	26.8 K	2015-10-19 - 15:51	MartijnMulders
pdf	toplhcwg_ttxsec_sqrts_may2015.pdf	r1	manage	20.9 K	2015-10-19 - 15:51	MartijnMulders
png	toplhcwg_ttxsec_sqrts_may2015.png	r1	manage	35.2 K	2015-10-19 - 15:51	MartijnMulders
pdf	tt_curve_toplhcwg_Nov17.pdf	r1	manage	21.3 K	2018-02-27 - 09:25	MartijnMulders
png	tt_curve_toplhcwg_Nov17.png	r1	manage	614.3 K	2018-02-27 - 09:25	MartijnMulders
pdf	tt_curve_toplhcwg_may18.pdf	r1	manage	21.2 K	2018-05-27 - 21:42	MartijnMulders
png	tt_curve_toplhcwg_may18.png	r1	manage	39.8 K	2018-05-27 - 21:42	MartijnMulders
png	tt_curve_toplhcwg_sep17.png	r1	manage	432.0 K	2018-02-27 - 09:27	MartijnMulders
pdf	tt_curve_toplhcwg_sep18.pdf	r1	manage	21.4 K	2018-10-01 - 11:18	MartijnMulders
png	tt_curve_toplhcwg_sep18.png	r1	manage	40.6 K	2018-10-01 - 11:18	MartijnMulders
pdf	tt_curve_toplhcwg_sep19.pdf	r1	manage	21.3 K	2019-09-23 - 06:31	ReinhardSchwienhorst
png	tt_curve_toplhcwg_sep19.png	r1	manage	43.0 K	2019-09-23 - 06:31	ReinhardSchwienhorst
pdf	tt_curve_toplhcwg_sept17.pdf	r1	manage	21.2 K	2018-02-27 - 09:27	MartijnMulders
pdf	tt_xsec_vsroots_may2017.pdf	r1	manage	21.2 K	2017-05-19 - 16:05	MartijnMulders
png	tt_xsec_vsroots_may2017.png	r1	manage	39.4 K	2017-05-19 - 16:05	MartijnMulders

This topic: LHCPhysics > LHCTopWG > LHCTopWGSummaryPlots > TopPairCrossectionSqrtsHistory
Topic revision: r10 - 2019-09-23 - ReinhardSchwienhorst

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