The theory relevant to the study of matter in equilibrium with the radiation field is thermal quantum electrodynamics (TQED). We present a formulation of the theory, suitable for non relativistic fluids, based on a joint functional integral representation of matter and field variables. In this formalism cluster expansion techniques of classical statistical mechanics become operative. They provide an alternative to the usual Feynman diagrammatics in many-body problems which is not perturbative with respect to the coupling constant. As an application we show that the effective Coulomb interaction between quantum charges is partially screened by thermalized photons at large distances
The goal of this work is to explore the relaxation dynamics of isolated quantum systems driven out o...
A relativistic/QED theory of light pressure on electrons by an isotropic, in particular blackbody, r...
We review recent developments for the description of far-from-equilibrium dynamics of quantum fields...
The theory relevant to the study of matter in equilibrium with the radiation field is thermal quantu...
We provide an exact microscopic statistical treatment of particle and field correlations in a system...
Quantum field theory at finite temperature and density can be used for describing the physics of rel...
We consider the microscopic model of a quantum plasma (charged fluid) in thermal equilibrium with th...
The real- and imaginary-time-formalisms of thermal field theory and their extension to gauge theorie...
Bringing together the key ideas from nonequilibrium statistical mechanics and powerful methodology f...
We generalize the concept of conserving, Phi-derivable, approximations to relativistic field theorie...
In the framework of closed time path thermal field theory we investigate the production rate of hard...
We derive the full linear-response theory for nonrelativistic quantum electrodynamics in the long wa...
accepted for publication in Annual Reviews of Condensed Matter PhysicsInternational audienceQuantum ...
This book presents thermal field theory techniques, which can be applied in both cosmology and the t...
In this article an introduction to the thermal field theory within imaginary time vis-a-vis Matsubar...
The goal of this work is to explore the relaxation dynamics of isolated quantum systems driven out o...
A relativistic/QED theory of light pressure on electrons by an isotropic, in particular blackbody, r...
We review recent developments for the description of far-from-equilibrium dynamics of quantum fields...
The theory relevant to the study of matter in equilibrium with the radiation field is thermal quantu...
We provide an exact microscopic statistical treatment of particle and field correlations in a system...
Quantum field theory at finite temperature and density can be used for describing the physics of rel...
We consider the microscopic model of a quantum plasma (charged fluid) in thermal equilibrium with th...
The real- and imaginary-time-formalisms of thermal field theory and their extension to gauge theorie...
Bringing together the key ideas from nonequilibrium statistical mechanics and powerful methodology f...
We generalize the concept of conserving, Phi-derivable, approximations to relativistic field theorie...
In the framework of closed time path thermal field theory we investigate the production rate of hard...
We derive the full linear-response theory for nonrelativistic quantum electrodynamics in the long wa...
accepted for publication in Annual Reviews of Condensed Matter PhysicsInternational audienceQuantum ...
This book presents thermal field theory techniques, which can be applied in both cosmology and the t...
In this article an introduction to the thermal field theory within imaginary time vis-a-vis Matsubar...
The goal of this work is to explore the relaxation dynamics of isolated quantum systems driven out o...
A relativistic/QED theory of light pressure on electrons by an isotropic, in particular blackbody, r...
We review recent developments for the description of far-from-equilibrium dynamics of quantum fields...