The paper considers some typical problems for non-linear kinetic models evolving through pair-collisions at temperatures not far from absolute zero, which illustrate specifically quantum behaviours. Based on these examples, a number of differences between quantum and classical Boltzmann theory is then discussed in more general terms
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
When the temperature of a trapped Bose gas is below the Bose-Einstein transition temperature and abo...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
The paper considers some typical problems for non-linear kinetic models evolving through pair-collis...
We derive a quantum linear Boltzmann equation from first principles to describe collisional friction...
A basically quantum mechanical approach to the elementary diffusion process—the particle jump— is pr...
A basically quantum mechanical approach to the elementary diffusion process—the particle jump— is pr...
We consider an approximation of the linearised equation of the homogeneous Boltzmann equation that d...
We present a unified kinetic theory that describes the finite-temperature, non-equilibrium dynamics ...
In this paper we analyse the asymptotic dynamics of a system of N identical quantum particles in a l...
We discuss theoretical work on motion-limited trapping kinetics at very low temperatures where theor...
We study the abundance of a particle species in a thermalized plasma by introducing a quantum kineti...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
Summary. We review some modelling and numerical aspects in quantum kinetic theory for a gas of inter...
In this thesis, we investigate the emergence of kinetic processes in finite quantum systems. We firs...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
When the temperature of a trapped Bose gas is below the Bose-Einstein transition temperature and abo...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
The paper considers some typical problems for non-linear kinetic models evolving through pair-collis...
We derive a quantum linear Boltzmann equation from first principles to describe collisional friction...
A basically quantum mechanical approach to the elementary diffusion process—the particle jump— is pr...
A basically quantum mechanical approach to the elementary diffusion process—the particle jump— is pr...
We consider an approximation of the linearised equation of the homogeneous Boltzmann equation that d...
We present a unified kinetic theory that describes the finite-temperature, non-equilibrium dynamics ...
In this paper we analyse the asymptotic dynamics of a system of N identical quantum particles in a l...
We discuss theoretical work on motion-limited trapping kinetics at very low temperatures where theor...
We study the abundance of a particle species in a thermalized plasma by introducing a quantum kineti...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
Summary. We review some modelling and numerical aspects in quantum kinetic theory for a gas of inter...
In this thesis, we investigate the emergence of kinetic processes in finite quantum systems. We firs...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
When the temperature of a trapped Bose gas is below the Bose-Einstein transition temperature and abo...
Boltzmann equations are often used to describe the non-equilibrium time-evolution of many-body syste...
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