The formulation of quantum kinetic equations is based on the real-time Green's function formalism. Introducing semi-classical approximations one obtains the so-called Kadanoff-Baym equations. These equations are used as a starting point for studying the occurrence of quantum fluctuations and their relevance for transport phenomena in nuclear matter
This book presents an up-to-date formalism of non-equilibrium Green's functions covering different a...
The interaction with time-dependent external fields, especially the interplay between time-dependent...
In this thesis, we discussed the derivation of quantum kinetic equations appropriate for application...
Quantum kinetic equations are derived using the Keldysh Green's function formalism to describe non-e...
While the use of Green’s function techniques has a long tradition in quantum chemistry, the possibil...
In this work we discuss the application of nonequilibrium Green functions theory to atomic and molec...
Abstract. In this work we discuss the application of nonequilibrium Green functions theory to atomic...
Quantum diffusion equations with time-dependent transport coefficients are derived from generalized ...
The Kadanoff--Baym approach (two--time nonequilibrium Green's functions approach) is extended t...
The description of strongly interacting quantum fields is based on two-particle irreducible (2PI) a...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
An extension of the single-particle transport theory is proposed to allow calculation of fluctuation...
Equilibrium and nonequilibrium properties of correlated many-body systems are of growing interest in...
Non-equilibrium Green's function theory for non-adiabatic effects in quantum transport [Kershaw and ...
This book presents an up-to-date formalism of non-equilibrium Green's functions covering different a...
The interaction with time-dependent external fields, especially the interplay between time-dependent...
In this thesis, we discussed the derivation of quantum kinetic equations appropriate for application...
Quantum kinetic equations are derived using the Keldysh Green's function formalism to describe non-e...
While the use of Green’s function techniques has a long tradition in quantum chemistry, the possibil...
In this work we discuss the application of nonequilibrium Green functions theory to atomic and molec...
Abstract. In this work we discuss the application of nonequilibrium Green functions theory to atomic...
Quantum diffusion equations with time-dependent transport coefficients are derived from generalized ...
The Kadanoff--Baym approach (two--time nonequilibrium Green's functions approach) is extended t...
The description of strongly interacting quantum fields is based on two-particle irreducible (2PI) a...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
An extension of the single-particle transport theory is proposed to allow calculation of fluctuation...
Equilibrium and nonequilibrium properties of correlated many-body systems are of growing interest in...
Non-equilibrium Green's function theory for non-adiabatic effects in quantum transport [Kershaw and ...
This book presents an up-to-date formalism of non-equilibrium Green's functions covering different a...
The interaction with time-dependent external fields, especially the interplay between time-dependent...
In this thesis, we discussed the derivation of quantum kinetic equations appropriate for application...
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