Abstract
Some properties of the lattice dielectric gauge theories (LDGT) at finite temperature are studied and discussed. We have found several essential points to be mentioned: (1) deconfinement phase transition at certain values of dielectric potential parameters takes place; (2) space-like Wilson loop obeys area law at any temperature; (3) a possibility to introduce gauge invariant mass for dielectric field leads to existence of magnetic charge and sources of gluon current screening; such properties could mean a lack of infrared problem in dielectric theories unlike pure Yang-Mills theories at T {ne} 0. We show how an effective theory for static modes of high-temperature lattice Willson QCD can appear to be LDGT performing a corresponding reduction and discuss the general properties of the effective model obtained. (author).
Borisenko, O A;
Petrov, V K;
[1]
Zinovjev, G M
- AN Ukrainskoj SSR, Kiev (Ukraine). Inst. Teoreticheskoj Fiziki
Citation Formats
Borisenko, O A, Petrov, V K, and Zinovjev, G M.
Induced lattice dielectric gauge theory at finite temperature.
Japan: N. p.,
1993.
Web.
Borisenko, O A, Petrov, V K, & Zinovjev, G M.
Induced lattice dielectric gauge theory at finite temperature.
Japan.
Borisenko, O A, Petrov, V K, and Zinovjev, G M.
1993.
"Induced lattice dielectric gauge theory at finite temperature."
Japan.
@misc{etde_10142428,
title = {Induced lattice dielectric gauge theory at finite temperature}
author = {Borisenko, O A, Petrov, V K, and Zinovjev, G M}
abstractNote = {Some properties of the lattice dielectric gauge theories (LDGT) at finite temperature are studied and discussed. We have found several essential points to be mentioned: (1) deconfinement phase transition at certain values of dielectric potential parameters takes place; (2) space-like Wilson loop obeys area law at any temperature; (3) a possibility to introduce gauge invariant mass for dielectric field leads to existence of magnetic charge and sources of gluon current screening; such properties could mean a lack of infrared problem in dielectric theories unlike pure Yang-Mills theories at T {ne} 0. We show how an effective theory for static modes of high-temperature lattice Willson QCD can appear to be LDGT performing a corresponding reduction and discuss the general properties of the effective model obtained. (author).}
place = {Japan}
year = {1993}
month = {Nov}
}
title = {Induced lattice dielectric gauge theory at finite temperature}
author = {Borisenko, O A, Petrov, V K, and Zinovjev, G M}
abstractNote = {Some properties of the lattice dielectric gauge theories (LDGT) at finite temperature are studied and discussed. We have found several essential points to be mentioned: (1) deconfinement phase transition at certain values of dielectric potential parameters takes place; (2) space-like Wilson loop obeys area law at any temperature; (3) a possibility to introduce gauge invariant mass for dielectric field leads to existence of magnetic charge and sources of gluon current screening; such properties could mean a lack of infrared problem in dielectric theories unlike pure Yang-Mills theories at T {ne} 0. We show how an effective theory for static modes of high-temperature lattice Willson QCD can appear to be LDGT performing a corresponding reduction and discuss the general properties of the effective model obtained. (author).}
place = {Japan}
year = {1993}
month = {Nov}
}