This article has an erratum: [https://doi.org/10.1051/epjconf/201819104013]
EPJ Web Conf.
Volume 191, 2018XXth International Seminar on High Energy Physics (QUARKS-2018)
|Number of page(s)||11|
|Section||Quantum Chromodynamics and Strong Interactions|
|Published online||31 October 2018|
On the relation between pole and running heavy quark masses beyond the four-loop approximation
Institute for Nuclear Research of the Russian Academy of Sciences, 60th October Anniversary prospect 7a, Moscow, 117312, Russia
2 Moscow Institute of Physics and Technology, Institusky per. 9, Dolgoprudny, Moscow region, 141700, Russia
3 Landau Institute for Theoretical Physics of the Academy of Sciences of Russia, Akademika Semenova avenue 1-a, Chernogolovka, Moscow Region, 142432, Russia
* e-mail: firstname.lastname@example.org
** e-mail: email@example.com
Published online: 31 October 2018
The effective charges motivated method is applied to the relation between pole and M̅S̅-scheme heavy quark masses to study high order perturbative QCD corrections in the observable quantities proportional to the running quark masses. The non-calculated five- and six-loop perturbative QCD coefficients are estimated. This approach predicts for these terms the sign-alternating expansion in powers of number of lighter flavors nl, while the analyzed recently infrared renormalon asymptotic expressions do not reproduce the same behavior. We emphasize that coefficients of the quark mass relation contain proportional to π2 effects, which result from analytical continuation from the Euclidean region, where the scales of the running masses and QCD coupling constant are initially fixed, to the Minkowskian region, where the pole masses and the running QCD parameters are determined. For the t-quark the asymptotic nature of the non-resummed PT mass relation does not manifest itself at six-loops, while for the b-quark the minimal PT term appears at the probed by direct calculations four-loop level. The recent infrared renormalon based studies support these conclusions.
© The Authors, published by EDP Sciences, 2018
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