AbstractWe examine, through a Boltzmann equation approach, the generating action of hard thermal loops in the background of gravitational fields. Using the gauge and Weyl invariance of the theory at high temperature, we derive an explicit closed-form expression for the effective action
We use the background field method along with a special gauge condition, to derive the hard thermal ...
I consider the calculation of the two- and three-point functions for QED at finite temperature in th...
We prove that the hard thermal loop contribution to static thermal amplitudes can be obtained by set...
We examine, through a Boltzmann equation approach, the generating action of hard thermal loops in th...
AbstractWe examine, through a Boltzmann equation approach, the generating action of hard thermal loo...
The effective actions generating the hard thermal loops with massive internal fields are derived, in...
We derive a closed form expression for the long wavelength limit of the effective action for hard th...
The conventional results for hard thermal loops, which are the building blocks of resummed perturbat...
We examine, in the imaginary-time formalism, the high temperature behavior of n-point thermal loops ...
Bödeker D. From hard thermal loops to Langevin dynamics. Nuclear Physics B. 1999;559(1-2):502-538.In...
In this paper we compute the effective Lagrangian of static gravitational fields interacting with th...
A derivation, correct to all orders, is presented for the effective action generating hard-thermal m...
AbstractWe study, in the long wave-length and static limits, the structure of the n-point graviton f...
We use an auxiliary field construction to discuss the hard thermal loop effective action associated ...
We discuss the high-temperature behavior of retarded thermal loops in static external fields. We emp...
We use the background field method along with a special gauge condition, to derive the hard thermal ...
I consider the calculation of the two- and three-point functions for QED at finite temperature in th...
We prove that the hard thermal loop contribution to static thermal amplitudes can be obtained by set...
We examine, through a Boltzmann equation approach, the generating action of hard thermal loops in th...
AbstractWe examine, through a Boltzmann equation approach, the generating action of hard thermal loo...
The effective actions generating the hard thermal loops with massive internal fields are derived, in...
We derive a closed form expression for the long wavelength limit of the effective action for hard th...
The conventional results for hard thermal loops, which are the building blocks of resummed perturbat...
We examine, in the imaginary-time formalism, the high temperature behavior of n-point thermal loops ...
Bödeker D. From hard thermal loops to Langevin dynamics. Nuclear Physics B. 1999;559(1-2):502-538.In...
In this paper we compute the effective Lagrangian of static gravitational fields interacting with th...
A derivation, correct to all orders, is presented for the effective action generating hard-thermal m...
AbstractWe study, in the long wave-length and static limits, the structure of the n-point graviton f...
We use an auxiliary field construction to discuss the hard thermal loop effective action associated ...
We discuss the high-temperature behavior of retarded thermal loops in static external fields. We emp...
We use the background field method along with a special gauge condition, to derive the hard thermal ...
I consider the calculation of the two- and three-point functions for QED at finite temperature in th...
We prove that the hard thermal loop contribution to static thermal amplitudes can be obtained by set...
DOI
Add to ORKG