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Strongly coupled compact lattice QED with staggered fermions

Authors :
Thomas Neuhaus
J. Jersák
Christian B. Lang
Jürgen Cox
W. Franzki
Source :
Nuclear Physics B. 532:315-336
Publication Year :
1998
Publisher :
Elsevier BV, 1998.

Abstract

We explore the compact U(1) lattice gauge theory with staggered fermions and gauge field action -\sum_P [\beta \cos(\Theta_P) + \gamma \cos(2\Theta_P)], both for dynamical fermions and in the quenched approximation. (\Theta_P denotes the plaquette angle.) In simulations with dynamical fermions at various \gamma \le -0.2 on 6^4 lattices we find the energy gap at the phase transition of a size comparable to the pure gauge theory for \gamma \le 0 on the same lattice, diminishing with decreasing \gamma. This suggests a second order transition in the thermodynamic limit of the theory with fermions for \gamma below some finite negative value. Studying the theory on large lattices at \gamma = -0.2 in the quenched approximation by means of the equation of state we find non-Gaussian values of the critical exponents associated with the chiral condensate, \beta \simeq 0.32 and \delta \simeq 1.8, and determine the scaling function. Furthermore, we evaluate the meson spectrum and study the PCAC relation.<br />Comment: 21 pages

Details

ISSN :
05503213
Volume :
532
Database :
OpenAIRE
Journal :
Nuclear Physics B
Accession number :
edsair.doi.dedup.....1ed989319302d86424ce119bb275f27e
Full Text :
https://doi.org/10.1016/s0550-3213(98)00451-9