Strong Running Coupling from the Gauge Sector of Domain Wall Lattice QCD with Physical Quark Masses

Zafeiropoulos, S.; Boucaud, Ph.; De Soto, F.; Rodríguez Quintero, José; Segovia, Jorge

doi:10.1103/PhysRevLett.122.162002

Author

Zafeiropoulos, S.; Boucaud, Ph.; De Soto, F.; Rodríguez Quintero, José ; Segovia, Jorge
Publication Date

2019-04
Publisher

American Physical Society
Citation

Zafeiropoulos, S., Boucaud, P., De Soto, F., Rodríguez Quintero, J., & Segovia, J. (2019). Strong Running Coupling from the Gauge Sector of Domain Wall Lattice QCD with Physical Quark Masses. Physical Review Letters, 122(16). DOI: https://doi.org/10.1103/physrevlett.122.162002
Abstract

We report on the first computation of the strong running coupling at the physical point (physical pion mass) from the ghost-gluon vertex, computed from lattice simulations with three flavors of domain wall fermions. We find MSðm2 ZÞ ¼ 0.1172ð11Þ, in remarkably good agreement with the world-wide average. Our computational bridge to this value is the Taylor-scheme strong coupling, which has been revealed of great interest by itself because it can be directly related to the quark-gluon interaction kernel in continuum approaches to the QCD bound-state problem.
URI

http://hdl.handle.net/10272/18370

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Strong Running Coupling from the Gauge Sector of Domain Wall Lattice QCD with Physical Quark Masses

Author

Zafeiropoulos, S.; Boucaud, Ph.; De Soto, F.; Rodríguez Quintero, José UHU Authority

; Segovia, Jorge

Publication Date

2019-04

Publisher

American Physical Society

Citation

Zafeiropoulos, S., Boucaud, P., De Soto, F., Rodríguez Quintero, J., & Segovia, J. (2019). Strong Running Coupling from the Gauge Sector of Domain Wall Lattice QCD with Physical Quark Masses. Physical Review Letters, 122(16). DOI: https://doi.org/10.1103/physrevlett.122.162002

Abstract

We report on the first computation of the strong running coupling at the physical point (physical pion mass) from the ghost-gluon vertex, computed from lattice simulations with three flavors of domain wall fermions. We find MSðm2 ZÞ ¼ 0.1172ð11Þ, in remarkably good agreement with the world-wide average. Our computational bridge to this value is the Taylor-scheme strong coupling, which has been revealed of great interest by itself because it can be directly related to the quark-gluon interaction kernel in continuum approaches to the QCD bound-state problem.

URI

http://hdl.handle.net/10272/18370

Fichero	Tamaño	Formato	Ver	Description
The strong running.pdf	308.6Kb	PDF	View/Open	PDF versión editor

Fichero	Tamaño	Formato	Ver	Description
The strong running.pdf	308.6Kb	PDF	View/Open	PDF versión editor

This item appears in the following Collection(s)

DFA - Artículos