Full QCD hadron spectroscopy with two flavors of dynamical Kogut-Susskind quarks on the lattice

Physical Review D Volume 47 Page 4739-4769 published_at 1993
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Title ( eng )
Full QCD hadron spectroscopy with two flavors of dynamical Kogut-Susskind quarks on the lattice
Creator
Fukugita M
Ishizuka N
Mino H
Ukawa A
Source Title
Physical Review D
Volume 47
Start Page 4739
End Page 4769
Abstract
A full lattice QCD simulation is carried out with two flavors of Kogut-Susskind staggered dynamical quarks using lattices of a size ranging from 44 to 204 at the gauge coupling constant β=6/g2=5.7 with the quark mass of mq=0.01 and 0.02 in lattice units. Primary emphasis is given to the study of finite-lattice-size effects in the hadron mass spectrum. It is found that hadron masses suffer from substantial finite-size effects even for a lattice size of the order of 2 fm, showing the importance of a quantitative control of the effect for a comparison with the experimental spectrum at the accuracy of a few percent level. The finite-size correction is found to be well described by a power law in the lattice size, rather than an exponential form predicted by analytic formulas derived for point particles. It is suggested that the effect arises from the size of hadrons squeezed on a finite lattice. Finite-size effects on the realization of chiral symmetry are also studied. The behavior of the pion mass, the chiral condensate, and the mass splitting between parity partners all support a spontaneous breakdown of chiral symmetry for a large lattice size. Prediction from chiral Lagrangians on the size dependence of the chiral condensate does not describe the simulation results well, however, at least for the quark mass employed for the present study. Calculation of the pion decay constant with various relations derived from current algebra and partial conservation of axial-vector current gives fπ=94(8)-105(9) MeV, with a method-dependent uncertainty contained within 10%.0 An examination is also made of the question of the dependence of hadron masses on hadron operators. Meson masses are basically operator independent, while baryon masses exhibit some operator dependence, necessitating further studies to resolve systematic uncertainties of this origin in the determination of the hadron mass spectrum.
NDC
Physics [ 420 ]
Language
eng
Resource Type journal article
Publisher
The American Physical Society
Date of Issued 1993
Rights
Copyright (c) 1993 The American Physical Society
Publish Type Version of Record
Access Rights open access
Source Identifier
[ISSN] 1550-7998
[DOI] http://dx.doi.org/10.1103/PhysRevD.47.4739 isVersionOf