Spatial Confinement and Thermal Deconfinement in the Compactified Gross-Neveu Model

Details Spatial Confinement and Thermal Deconfinement in the Compactified Gross-Neveu Model Spatial Confinement and Thermal Deconfinement in the Compactified Gross-Neveu Model

Feb 2006

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006fuin.conf..214m&link_type=abstract

FUNDAMENTAL INTERACTIONS. Proceedings of the 20th Lake Louise Winter Institute. Held 20-26 February 2005 in Lake Louise, Alberta

Computer Science

Scientific paper

Spatial confinement is shown to exist for the compactified 3-D massive Gross-Neveu model at T = 0. Compactification is engendered through a generalized Matsubara mechanism. Raising the temperature, a deconfining transition occurs. The values of the confining length and the deconfining temperature obtained are comparable to the proton charge diameter and the estimated deconfining temperature for baryons, if the fermion mass is taken as the constituent quark mass.

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