Top-Antitop Pair Production Close to Threshold Synopsis of Recent NNLO Results

Hoang, André H.; Beneke, Μ.; Melnikov, Kirill; Nagano, T.; Ota, A.; Penin, Alexander A.; Пивоваров, А. А.; Signer, Adrian; Smirnov, V.; Sumino, Y.; Teubner, T.; Yakovlev, O. I.; Yelkhovsky, Alexander

doi:10.1007/s1010500c0003

Cited by 92 publications

(96 citation statements)

References 43 publications

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“…We note that in general Coulomb corrections can also be resummed [46][47][48][49][50]. A combined resummation of Coulomb and soft corrections is, however, beyond the scope of this paper.…”

Section: Jhep03(2016)065mentioning

confidence: 99%

Soft gluon resummation for associated t t ¯ H $$ \mathrm{t}\overline{\mathrm{t}}\mathrm{H} $$ production at the LHC

Kulesza

Motyka

Stebel

et al. 2016

J. High Energ. Phys.

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We perform resummation of soft gluon corrections to the total cross section for the process pp → ttH. The resummation is carried out at next-to-leading-logarithmic (NLL) accuracy using the Mellin space technique, extending its application to the class of 2 → 3 processes. We present an analytical result for the soft anomalous dimension for a hadronic production of two coloured massive particles in association with a colour singlet. We discuss the impact of resummation on the numerical prediction for the associated Higgs boson production with top quarks at the LHC.

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“…We note that in general Coulomb corrections can also be resummed [46][47][48][49][50]. A combined resummation of Coulomb and soft corrections is, however, beyond the scope of this paper.…”

Section: Jhep03(2016)065mentioning

confidence: 99%

Soft gluon resummation for associated t t ¯ H $$ \mathrm{t}\overline{\mathrm{t}}\mathrm{H} $$ production at the LHC

Kulesza

Motyka

Stebel

et al. 2016

J. High Energ. Phys.

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“…Taking these uncertainties into account, an accuracy in the m t determination of δm t 100 MeV as quoted in eq. (1.1) seems to be feasible (for a review, see [4] and references therein). This requires an experimental accuracy of α s (M Z ) of about 0.001, which can be obtained from LC measurements also at the tt threshold [5], possibly from event shape measurements at the LC [6], and from LC measurements at GigaZ, where an even higher accuracy seems to be achievable [9].…”

Section: Jhep09(2003)075mentioning

confidence: 99%

Physics impact of a precise determination of the top quark mass at an e⁺e⁻linear collider

Heinemeyer¹,

Kraml

Porod

et al. 2003

J. High Energy Phys.

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At a prospective e + e − Linear Collider (LC) a very precise determination of the top quark mass with an accuracy of δm t 100 MeV will be possible. This is to be compared with the envisaged accuracy of δm t = 1-2 Gev at the Tevatron and the LHC. We discuss the physics impact of such a precise determination of m t , focusing on the Standard Model (SM) and its minimal supersymmetric extension (MSSM). In particular, we show the importance of a precise knowledge of m t for electroweak precision observables, and for Higgs physics and the scalar top sector of the MSSM. Taking the mSUGRA model as a specific example, we furthermore demonstrate the importance of a precise m t value for the prediction of sparticle masses and for constraints on the parameter space allowed by the relic density. The uncertainty in m t also significantly affects the reconstruction of the supersymmetric high scale theory. We find that going from hadron collider to LC accuracy in m t leads to an improvement of the investigated quantities by up to an order of magnitude.

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“…[6] and [7]. Total cross sections are known to NNLO in the threshold expansions [8][9][10][11][12] and high-energy expansions [13][14][15][16][17]. Results for the forwardbackward asymmetry are also known in the small mass approximation [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Electroweak production of top-quark pairs ine+e−annihilation at NNLO in QCD: The vector current contributions

Gao

Zhu

2014

Phys. Rev. D

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We report on a calculation of the vector current contributions to the electroweak production of top quark pairs in e + e − annihilation at next-to-next-to-leading order in Quantum Chromodynamics.Our setup is fully differential and can be used to calculate any infrared-safe observable. The real emission contributions are handled by a next-to-next-to-leading order generalization of the phasespace slicing method. We demonstrate the power of our technique by considering its application to various inclusive and exclusive observables.

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Top-Antitop Pair Production Close to Threshold Synopsis of Recent NNLO Results

Cited by 92 publications

References 43 publications

Soft gluon resummation for associated t t ¯ H $$ \mathrm{t}\overline{\mathrm{t}}\mathrm{H} $$ production at the LHC

Soft gluon resummation for associated t t ¯ H $$ \mathrm{t}\overline{\mathrm{t}}\mathrm{H} $$ production at the LHC

Physics impact of a precise determination of the top quark mass at an e⁺e⁻linear collider

Electroweak production of top-quark pairs ine+e−annihilation at NNLO in QCD: The vector current contributions

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Top-Antitop Pair Production Close to Threshold Synopsis of Recent NNLO Results

Cited by 92 publications

References 43 publications

Soft gluon resummation for associated t t ¯ H $$ \mathrm{t}\overline{\mathrm{t}}\mathrm{H} $$ production at the LHC

Soft gluon resummation for associated t t ¯ H $$ \mathrm{t}\overline{\mathrm{t}}\mathrm{H} $$ production at the LHC

Physics impact of a precise determination of the top quark mass at an e+e−linear collider

Electroweak production of top-quark pairs ine+e−annihilation at NNLO in QCD: The vector current contributions

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Physics impact of a precise determination of the top quark mass at an e⁺e⁻linear collider