pdgLive

2018

ATLS

${{\mathit \ell}}+\not E_T+{}\geq{}$4j (${}\geq{}1{{\mathit b}}$)

$239$ $\pm4$ $\pm28$ $\pm5$

2017

ATLS

${{\mathit \tau}_{{h}}}+\not E_T+{}\geq{}$2j (${}\geq{}2{{\mathit b}}$)

$228.5$ $\pm3.8$ $\pm13.7$ $\pm6.0$

2017

CMS

${{\mathit \ell}}+\not E_T+{}\geq{}$4j (${}\geq{}1{{\mathit b}}$)

$242.9$ $\pm1.7$ $\pm8.6$

⁴

2016

ATLS

${{\mathit e}}$ + ${{\mathit \mu}}$ + 1 or 2${{\mathit b}}$ jets

$244.9$ $\pm1.4$ ${}^{+6.3}_{-5.5}$ $\pm6.4$

⁵

2016

CMS

${{\mathit e}}$ + ${{\mathit \mu}}$ + $\not E_T$ + ${}\geq{}$0j

$275.6$ $\pm6.1$ $\pm37.8$ $\pm7.2$

⁶

2016

CMS

${}\geq{}$6j (${}\geq{}2{{\mathit b}}$)

$260$ $\pm1$ ${}^{+24}_{-25}$

⁷

2015

ATLS

${{\mathit \ell}}+\not E_T+{}\geq{}$3j (${}\geq{}1{{\mathit b}}$)

⁸

AAIJ

2015

LHCB

${{\mathit \mu}}+{}\geq{}$1j(${{\mathit b}}$-tag) forward region

$242.4$ $\pm1.7$ $\pm10.2$

⁹

2014

ATLS

${{\mathit e}}$ + ${{\mathit \mu}}$ + 1 or 2${{\mathit b}}$ jets

$239$ $\pm2$ $\pm11$ $\pm6$

¹⁰

CHATRCHYAN

2014

CMS

${{\mathit \ell}}{{\mathit \ell}}+\not E_T+{}\geq{}$2j (${}\geq{}$1 ${{\mathit b}}$-tag)

$257$ $\pm3$ $\pm24$ $\pm7$

¹¹

2014

CMS

${{\mathit \ell}}+{{\mathit \tau}_{{h}}}+\not E_T+{}\geq{}$2j (${}\geq{}1{{\mathit b}}$)

AABOUD 2018BH based on 20.2 fb${}^{-1}$ of data. The result is for ${\mathit m}_{{{\mathit t}}}$ = 172.5 GeV. To reduce effects of uncertainties in the jet energy scale and ${{\mathit b}}$-tagging efficiency, they are included as nuisance parameters in the fit of discriminant distributions, after separating selected events into three regions. Furthermore the ${{\mathit W}}$+jets background distribution is modelled using ${{\mathit Z}}$+jets event data.

AABOUD 2017Z based on 20.2 fb${}^{-1}$ of data, using the mode ${{\mathit t}}$ ${{\overline{\mathit t}}}$ $\rightarrow$ ${{\mathit \tau}}{{\mathit \nu}}{{\mathit q}^{\,'}}{{\overline{\mathit q}}}{{\mathit b}}{{\overline{\mathit b}}}$ with ${{\mathit \tau}}$ decaying hadronically. Single prong and 3 prong decays of ${{\mathit \tau}}$ are separately analyzed. The result is consistent with the SM. The third quoted uncertainty is due to luminosity.

KHACHATRYAN 2017B based on 19.6 fb${}^{-1}$ of data, using a binned likelihood fit of templates to the data. Also the ratio ${\mathit \sigma (}$ ${{\mathit t}}{{\overline{\mathit t}}}$ ; 8 TeV${)}/{\mathit \sigma (}$ ${{\mathit t}}{{\overline{\mathit t}}}$ ; 7 TeV${)}$ = $1.43$ $\pm0.04$ $\pm0.07$ $\pm0.05$ is reported. The results are in agreement with NNLO SM predictions.

⁴

AAD 2016BK is an update of the value from AAD 2014AY using the improved luminosity calibration. The value $242.9$ $\pm1.7$ $\pm5.5$ $\pm5.1$ $\pm4.2$ pb is reported, where we have combined the systematic uncertainties in quadrature. Also the ratio ${\mathit \sigma (}$ ${{\mathit t}}{{\overline{\mathit t}}}$ ; 8TeV${)}/{\mathit \sigma (}$ ${{\mathit t}}{{\overline{\mathit t}}}$ ; 7TeV${)}$ = $1.328$ $\pm0.024$ $\pm0.015$ $\pm0.038$ $\pm0.001$ has been updated. The former result is consistent with the SM predictions at NNLO, while the latter result is 2.1 $\sigma $ below the expectation.

⁵	KHACHATRYAN 2016AW based on 19.7 fb${}^{-1}$ of data, using a binned likelihood fit to differential distributions of ${{\mathit b}}$-tagged and non-${{\mathit b}}$-tagged jets. The result is in good agreement with NNLO SM predictions.

⁶

KHACHATRYAN 2016BC based on 18.4 fb${}^{-1}$ of data. The last uncertainty is due to luminosity. Cuts on kinematical fit probability and ${{\mathit \Delta}}{{\mathit R}}({{\mathit b}},{{\mathit b}}$) are imposed. The major QCD background is determined from the data. The result is for ${\mathit m}_{{{\mathit t}}}$ = 172.5 GeV and in agreement with the SM prediction. The top quark ${{\mathit p}_{{T}}}$ spectra, also measured, are significantly softer than theoretical predictions.

⁷	AAD 2015BP based on 20.3 fb${}^{-1}$ of data. The result is for ${\mathit m}_{{{\mathit t}}}$ = 172.5 GeV and in agreement with the SM prediction $253$ ${}^{+13}_{-15}$ pb at NNLO+NNLL. Superseded by AABOUD 2018BH.

⁸

AAIJ 2015R, based on 2.0 fb${}^{-1}$ of data, reports $0.289$ $\pm0.043$ $\pm0.040$ $\pm0.029$ pb cross section for the forward fiducial region ${{\mathit p}_{{T}}}$ (${{\mathit \mu}}$) $>$ 25 GeV, 2.0 $<$ ${{\mathit \eta}}({{\mathit \mu}}$) $<$ 4.5, 50 GeV $<$ ${{\mathit p}_{{T}}}$ (${{\mathit b}}$) $<$ 100 GeV, 2.2 $<$ ${{\mathit \eta}}({{\mathit b}}$) $<$ 4.2, ${{\mathit \Delta}}{{\mathit R}}({{\mathit \mu}},{{\mathit b}}$) $>$ 0.5, and ${{\mathit p}_{{T}}}$ (${{\mathit \mu}}+{{\mathit b}}$) $>$ 20 GeV. The three errors are from statistics, systematics, and theory. The result agrees with the SM NLO prediction.

⁹

AAD 2014AY reports $242.4$ $\pm1.7$ $\pm5.5$ $\pm7.5$ $\pm4.2$ pb value based on 20.3 fb${}^{-1}$ of data. The four errors are from statistics, systematic, luminosity, and the 0.66$\%$ beam energy uncertainty. We have combined the systematic uncertainties in quadrature. The result is for ${\mathit m}_{{{\mathit t}}}$ = 172.5GeV; for other ${\mathit m}_{{{\mathit t}}}$, ${\mathit \sigma (}{\mathit m}_{{{\mathit t}}}{)}$ = ${\mathit \sigma (}$172.5GeV${)}{\times }[1-0.0028{\times }({\mathit m}_{{{\mathit t}}}-172.5$GeV)]. Also measured is the ratio ${\mathit \sigma (}$ ${{\mathit t}}{{\overline{\mathit t}}}$ ; 8TeV${)}/{\mathit \sigma (}$ ${{\mathit t}}{{\overline{\mathit t}}}$ ; 7TeV${)}$ = $1.326$ $\pm0.024$ $\pm0.015$ $\pm0.049$ $\pm0.001$. The results are consistent with the SM predictions at NNLO.

¹⁰	Based on 5.3 fb${}^{-1}$ of data. The result is for ${\mathit m}_{{{\mathit t}}}$ = 172.5 GeV, and a parametrization is given in eq.(6.1) for the mean value at other ${\mathit m}_{{{\mathit t}}}$ values. The result is in agreement with the SM prediction $252.9$ ${}^{+6.4}_{-8.6}$ pb at NNLO.

¹¹

Based on 19.6 fb${}^{-1}$ of data. The measurement is in the channel ${{\mathit t}}$ ${{\overline{\mathit t}}}$ $\rightarrow$ ( ${{\mathit b}}{{\mathit \ell}}{{\mathit \nu}}$) ( ${{\mathit b}}{{\mathit \tau}}{{\mathit \nu}}$), where ${{\mathit \tau}}$ decays into hadrons (${{\mathit \tau}_{{h}}}$). The result is for ${\mathit m}_{{{\mathit t}}}$ = 172.5 GeV. For ${\mathit m}_{{{\mathit t}}}$ = 173.3 GeV, the cross section is lower by 3.1 pb.

References:

2018BH

EPJ C78 487

Measurement of the inclusive and fiducial $t\bar{t}$ production cross-sections in the lepton+jets channel in $pp$ collisions at $\sqrt{s} = 8$ TeV with the ATLAS detector

2017Z

PR D95 072003

Measurement of the ${{\mathit t}}{{\overline{\mathit t}}}$ Production Cross Section in the ${{\mathit \tau}}$ + Jets Final State in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV using the ATLAS Detector

2017B

EPJ C77 15

Measurements of the ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Production Cross Section in Lepton+Jets Final States in ${{\mathit p}}{{\mathit p}}$ Collisions at 8 TeV and Ratio of 8 to 7 TeV Cross Sections

2016BK

EPJ C76 642

Addendum to AAD 2014AY: Measurement of the ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Production Cross-Section using ${{\mathit e}}{{\mathit \mu}}$ Events with ${\mathit {\mathit b}}$-Tagged Jets in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 and 8 TeV with the ATLAS Detector

2016AW

JHEP 1608 029

Measurement of the ${\mathit {\mathit t}}−{\mathit {\overline{\mathit t}}}$ Production Cross Section in the ${{\mathit e}}−{{\mathit \mu}}$ Channel in Proton-Proton Collisions at $\sqrt {s }$ = 7 and 8 TeV

2016BC

EPJ C76 128

Measurement of the ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Production Cross Section in the All-Jets Final State in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV

2015BP

PR D91 112013

Measurement of the Top Pair Production Cross Section in 8 TeV Proton-Proton Collisions using Kinematic Information in the Lepton+Jets Final State with ATLAS

AAIJ

2015R

PRL 115 112001

First Observation of Top Quark Production in the Forward Region

2014AY

EPJ C74 3109

Measurement of the ${\mathit {\mathit t}}{\mathit {\overline{\mathit t}}}$ Production Cross-Section using ${{\mathit e}}{{\mathit \mu}}$ Events with ${\mathit {\mathit b}}$-Tagged Jets in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 7 and 8 TeV with the ATLAS Detector

CHATRCHYAN

2014F

JHEP 1402 024

Measurement of the ${{\mathit t}}{{\overline{\mathit t}}}$ Production Cross Section in the Dilepton Channel in ${{\mathit p}}{{\mathit p}}$ Collisions at $\sqrt {s }$ = 8 TeV