Add to ORKGA new thermodynamic treatment of selfgravitating systems is given in the "mean field approximation". The introduction of a suitable effective potential let a King-like distribution function to be led to a Bolzmann one
We discuss the dynamics and thermodynamics of the Hamiltonian Mean Field model (HMF) which is a prot...
The self-gravitating systems are formed by particles interacting through gravity. They describe stru...
We present a thermodynamic theory for a generic population of M individuals distributed into N group...
A new thermodynamic treatment of self-gravitating systems is given in the "mean field approximation"...
International audienceWe develop the cluster expansion and the Mayer expansion for the self-gravitat...
LaTex 12 pages, 1 figure .psWe develop the cluster expansion and the Mayer expansion for the self-gr...
We discuss the possibility to analyze the problem of gravothermal catastrophe in a new way, by obtai...
The field theory approach to statistical description of the system of gravitational interacting part...
A new approach based on the nonequilibrium statistical operator is presented that makes it possible ...
We use the mean-field approximation to simplify the master equation for sympathetic cooling of boson...
The self-energy functional theory (SFT) is generalized to describe the real-time dynamics of correla...
A self-gravitating system (SGS) is a systemwhere many particles interact via the gravitational force...
We discuss the physical basis of the statistical mechanics of self-gravitating systems. We show the ...
The selfconsistency conditions inherent in the mean field approximation are generalized in several w...
The statistical mechanics of collisionless self-gravitating systems is a longstanding puzzle, which ...
We discuss the dynamics and thermodynamics of the Hamiltonian Mean Field model (HMF) which is a prot...
The self-gravitating systems are formed by particles interacting through gravity. They describe stru...
We present a thermodynamic theory for a generic population of M individuals distributed into N group...
A new thermodynamic treatment of self-gravitating systems is given in the "mean field approximation"...
International audienceWe develop the cluster expansion and the Mayer expansion for the self-gravitat...
LaTex 12 pages, 1 figure .psWe develop the cluster expansion and the Mayer expansion for the self-gr...
We discuss the possibility to analyze the problem of gravothermal catastrophe in a new way, by obtai...
The field theory approach to statistical description of the system of gravitational interacting part...
A new approach based on the nonequilibrium statistical operator is presented that makes it possible ...
We use the mean-field approximation to simplify the master equation for sympathetic cooling of boson...
The self-energy functional theory (SFT) is generalized to describe the real-time dynamics of correla...
A self-gravitating system (SGS) is a systemwhere many particles interact via the gravitational force...
We discuss the physical basis of the statistical mechanics of self-gravitating systems. We show the ...
The selfconsistency conditions inherent in the mean field approximation are generalized in several w...
The statistical mechanics of collisionless self-gravitating systems is a longstanding puzzle, which ...
We discuss the dynamics and thermodynamics of the Hamiltonian Mean Field model (HMF) which is a prot...
The self-gravitating systems are formed by particles interacting through gravity. They describe stru...
We present a thermodynamic theory for a generic population of M individuals distributed into N group...