Thermalisation of Longitudinal Gluons

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Abstract

In the usual real-time finite-temperature gauge theory both the physical and the unphysical degrees of freedom are thermalised. We discuss the alternative approach where only the physical transverse components of the gauge field have bare thermal propagators, whereas the unphysical degrees of freedom are not heated. We show how pinch singularities are avoided: sometimes this requires resummation. If only the hard thermal loop is included in the resummation, the spatially-longitudinal component of the gauge field, which contains an extra collective plasmon mode, becomes fully thermalised, though the Faddeev-Popov ghost and the remaining unphysical component of the gauge field remain frozen.

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Real- and imaginary-time field theory at finite temperature and density

Ch.G. van Weert, N.P. Landsman (1987)

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Thermalization of boson propagators in finite-temperature field theory

H. Arthur Weldon (1992)

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Comment on ``High Temperature Fermion Propagator -- Resummation and Gauge Dependence of the Damping Rate''

Anton Rebhan (1992)

Baier et al. have reported the damping rate of long-wavelength fermionic excitations in high-temperature QED and QCD to be gauge-fixing-dependent even within the resummation scheme due to Braaten and Pisarski. It is shown that this problem is caused by the singular nature of the on-shell expansion of the fermion self-energy in the infra-red. Its regularization reveals that the alleged gauge dependence pertains to the residue rather than the pole of the fermion propagator, so that in particular the damping constant comes out gauge-independent, as it should.

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Publication date Created: 18 March 1993

Article

DOI: 10.1016/0550-3213(93)90571-6

ArXiV ID: hep-ph/9303276

SO-VID: dec5474c-2280-4cda-8d9a-e04ae5a832d0

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Journal reference Nucl.Phys. B410 (1993) 23-36

Comments 10 pages, 1 figure appended as pictex-file, DAMTP 93-06, TUW-93-03

Categories hep-ph hep-th

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Thermalisation of Longitudinal Gluons

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Abstract

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Most cited references 3

Real- and imaginary-time field theory at finite temperature and density

Thermalization of boson propagators in finite-temperature field theory

Comment on ``High Temperature Fermion Propagator -- Resummation and Gauge Dependence of the Damping Rate''

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