Precision measurements of the top quark mass from the Tevatron in the pre-LHC era

Galtieri, A. Barbaro; Margaroli, F.; Volobouev, I.

doi:10.1088/0034-4885/75/5/056201

Cited by 16 publications

(12 citation statements)

References 192 publications

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“…A major collection of experimental methods is available in [63]. Here we highlight a few that have already proven useful or appear to be promising:…”

Section: Top Mass Determination At Hadron Collidersmentioning

confidence: 99%

Determination of the top quark mass circa 2013: methods, subtleties, perspectives

et al. 2014

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We present an up-to-date overview of the problem of top quark mass determination. We assess the need for precision in the top mass extraction in the LHC era together with the main theoretical and experimental issues arising in precision top mass determination. We collect and document existing results on top mass determination at hadron colliders and map the prospects for future precision top mass determination at e + e − colliders. We present a collection of estimates for the ultimate precision of various methods for top quark mass extraction at the LHC.

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“…A major collection of experimental methods is available in [63]. Here we highlight a few that have already proven useful or appear to be promising:…”

Section: Top Mass Determination At Hadron Collidersmentioning

confidence: 99%

Determination of the top quark mass circa 2013: methods, subtleties, perspectives

et al. 2014

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“…Details of the analyses are therefore not repeated as this information is available in recent reviews [28], as well as in the publications of each of the results. We will, however, summarize the basic techniques used for the measurements.…”

Section: E Overview Of Mass Measurementsmentioning

confidence: 99%

Combination of the top-quark mass measurements from the Tevatron collider

Aaltonen¹,

Abazov²,

Abbott³

et al. 2012

Phys. Rev. D

128

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The top quark is the heaviest known elementary particle, with a mass about 40 times larger than the mass of its isospin partner, the bottom quark. It decays almost 100% of the time to a W boson and a bottom quark. Using top-antitop pairs at the Tevatron proton-antiproton collider, the CDF and D0 Collaborations have measured the top quark's mass in different final states for integrated luminosities of up to 5.8 fb −1 . This paper reports on a combination of these measurements that results in a more precise value of the mass than any individual decay channel can provide. It describes the treatment of the systematic uncertainties and their correlations. The mass value determined is 173.18 ± 0.56 (stat) ± 0.75 (syst) GeV or 173.18 ± 0.94 GeV, which has a precision of ±0.54%, making this the most precise determination of the top-quark mass.

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“…Any quantitative statement about the value of a quark mass must make careful reference to the particular theoretical framework that is used to define it. For example, in the overall fit of electroweak measurements the top quark mass needs to be expressed in the M S renormalization scheme [33] [58]. What is being measured in tt production experiments is the Monte Carlo-defined mass with whatever Monte Carlo (MC) is used to measure it, because the top mass is always determined from the data through the fit of some mass-dependent MC prediction.…”

Section: Top Quark Massmentioning

confidence: 99%

Approaching the CDF Top Quark Mass Legacy Measurement in the Lepton+Jets channel with the Matrix Element Method

Tosciri¹

2016

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Precision measurements of the top quark mass from the Tevatron in the pre-LHC era

Cited by 16 publications

References 192 publications

Determination of the top quark mass circa 2013: methods, subtleties, perspectives

Determination of the top quark mass circa 2013: methods, subtleties, perspectives

Combination of the top-quark mass measurements from the Tevatron collider

Approaching the CDF Top Quark Mass Legacy Measurement in the Lepton+Jets channel with the Matrix Element Method

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