SU(2) chiral perturbation theory low-energy constants from 2+1 flavor staggered lattice simulations

Szabolcs Borsányi; Stephan Dürr; Zoltán Fodor; Stefan Krieg; Andreas Schäfer; Enno E. Scholz; Kálmán K. Szabó

doi:10.1103/PhysRevD.88.014513

SU(2) chiral perturbation theory low-energy constants from 2+1 flavor staggered lattice simulations

Szabolcs Borsányi, Stephan Dürr, Zoltán Fodor, Stefan Krieg, Andreas Schäfer, Enno E. Scholz, Kálmán K. Szabó

Physics

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62 Scopus citations

Abstract

We extract the next-to-leading-order low-energy constants ℓ_̄3 and ℓ_̄4 of SU(2) chiral perturbation theory, based on precise lattice data for the pion mass and decay constant on ensembles generated by the Wuppertal-Budapest Collaboration for QCD thermodynamics. These ensembles feature 2+1 flavors of two-fold stout-smeared dynamical staggered fermions combined with Symanzik glue, with pion masses varying from 135 to 435 MeV, lattice scales between 0.7 and 2.0 GeV, while m_s is kept fixed at its physical value. Moderate taste splittings and the scale being set through the pion decay constant allow us to restrict ourselves to the taste pseudoscalar state and to use formulas from continuum chiral perturbation theory. Finally, by dropping the data points near 135 MeV from the fits, we can explore the range of pion masses that is needed in SU(2) chiral perturbation theory to reliably extrapolate to the physical point.

Original language	English (US)
Article number	014513
Journal	Physical Review D - Particles, Fields, Gravitation and Cosmology
Volume	88
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevD.88.014513
State	Published - Jul 24 2013

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Physics and Astronomy (miscellaneous)

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10.1103/PhysRevD.88.014513

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title = "SU(2) chiral perturbation theory low-energy constants from 2+1 flavor staggered lattice simulations",

abstract = "We extract the next-to-leading-order low-energy constants {\=ℓ}3 and {\=ℓ}4 of SU(2) chiral perturbation theory, based on precise lattice data for the pion mass and decay constant on ensembles generated by the Wuppertal-Budapest Collaboration for QCD thermodynamics. These ensembles feature 2+1 flavors of two-fold stout-smeared dynamical staggered fermions combined with Symanzik glue, with pion masses varying from 135 to 435 MeV, lattice scales between 0.7 and 2.0 GeV, while ms is kept fixed at its physical value. Moderate taste splittings and the scale being set through the pion decay constant allow us to restrict ourselves to the taste pseudoscalar state and to use formulas from continuum chiral perturbation theory. Finally, by dropping the data points near 135 MeV from the fits, we can explore the range of pion masses that is needed in SU(2) chiral perturbation theory to reliably extrapolate to the physical point.",

author = "Szabolcs Bors{\'a}nyi and Stephan D{\"u}rr and Zolt{\'a}n Fodor and Stefan Krieg and Andreas Sch{\"a}fer and Scholz, {Enno E.} and Szab{\'o}, {K{\'a}lm{\'a}n K.}",

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T1 - SU(2) chiral perturbation theory low-energy constants from 2+1 flavor staggered lattice simulations

AU - Borsányi, Szabolcs

AU - Dürr, Stephan

AU - Fodor, Zoltán

AU - Krieg, Stefan

AU - Schäfer, Andreas

AU - Scholz, Enno E.

AU - Szabó, Kálmán K.

PY - 2013/7/24

Y1 - 2013/7/24

N2 - We extract the next-to-leading-order low-energy constants ℓ̄3 and ℓ̄4 of SU(2) chiral perturbation theory, based on precise lattice data for the pion mass and decay constant on ensembles generated by the Wuppertal-Budapest Collaboration for QCD thermodynamics. These ensembles feature 2+1 flavors of two-fold stout-smeared dynamical staggered fermions combined with Symanzik glue, with pion masses varying from 135 to 435 MeV, lattice scales between 0.7 and 2.0 GeV, while ms is kept fixed at its physical value. Moderate taste splittings and the scale being set through the pion decay constant allow us to restrict ourselves to the taste pseudoscalar state and to use formulas from continuum chiral perturbation theory. Finally, by dropping the data points near 135 MeV from the fits, we can explore the range of pion masses that is needed in SU(2) chiral perturbation theory to reliably extrapolate to the physical point.

AB - We extract the next-to-leading-order low-energy constants ℓ̄3 and ℓ̄4 of SU(2) chiral perturbation theory, based on precise lattice data for the pion mass and decay constant on ensembles generated by the Wuppertal-Budapest Collaboration for QCD thermodynamics. These ensembles feature 2+1 flavors of two-fold stout-smeared dynamical staggered fermions combined with Symanzik glue, with pion masses varying from 135 to 435 MeV, lattice scales between 0.7 and 2.0 GeV, while ms is kept fixed at its physical value. Moderate taste splittings and the scale being set through the pion decay constant allow us to restrict ourselves to the taste pseudoscalar state and to use formulas from continuum chiral perturbation theory. Finally, by dropping the data points near 135 MeV from the fits, we can explore the range of pion masses that is needed in SU(2) chiral perturbation theory to reliably extrapolate to the physical point.

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SU(2) chiral perturbation theory low-energy constants from 2+1 flavor staggered lattice simulations

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