The ideas in this thesis are placed broadly within the context of many-body quantum dynamics, an area of research that has gained significant interest in recent years due to developments in cold atom experiments that enable the realization of isolated many-body quantum systems. In this thesis, we first focus on the concept of connecting quantum mechanical systems to statistical mechanics, which often arises in the study of ‘thermalization’ in isolated many-body systems. An inescapable issue in the endeavor to connect the two is the definition of temperature. The first core definition of temperature we consider is inspired by the eigenstate thermalization hypothesis, which posits that the eigenstates of a generic thermalizing system...
PACS 03.65.Yz – Decoherence; open systems; quantum statistical methods PACS 05.70.Ln – Nonequilibriu...
This thesis studies problems concerning the dynamics and thermodynamics of manybody quantum systems...
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....
The ideas in this thesis are placed broadly within the context of many-body quantum dynamics, an ar...
A very fundamental problem in quantum statistical mechanics involves whether—and how—an isolated qua...
The project concerns the study of the interplay among quantum mechanics, statistical mechanics and t...
Among the few lessons that Physics teaches us on a daily basis, one in particular is hard to miss: t...
Statistical mechanics characterizes systems in or near equilibrium using in terms of a handful of "s...
Statistical mechanics characterizes systems in or near equilibrium using in terms of a handful of "s...
Dabelow L, Vorndamme P, Reimann P. Thermalization of locally perturbed many-body quantum systems. Ph...
Statistical mechanics relies on relaxation towards the maximally entropic state in thermal equilibri...
Understanding the evolution towards thermal equilibrium of an iso-lated quantum system is at the fou...
We present a detailed study of the quantum dissipative dynamics of a charged particle in a magnetic ...
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....
PACS 03.65.Yz – Decoherence; open systems; quantum statistical methods PACS 05.70.Ln – Nonequilibriu...
This thesis studies problems concerning the dynamics and thermodynamics of manybody quantum systems...
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....
The ideas in this thesis are placed broadly within the context of many-body quantum dynamics, an ar...
A very fundamental problem in quantum statistical mechanics involves whether—and how—an isolated qua...
The project concerns the study of the interplay among quantum mechanics, statistical mechanics and t...
Among the few lessons that Physics teaches us on a daily basis, one in particular is hard to miss: t...
Statistical mechanics characterizes systems in or near equilibrium using in terms of a handful of "s...
Statistical mechanics characterizes systems in or near equilibrium using in terms of a handful of "s...
Dabelow L, Vorndamme P, Reimann P. Thermalization of locally perturbed many-body quantum systems. Ph...
Statistical mechanics relies on relaxation towards the maximally entropic state in thermal equilibri...
Understanding the evolution towards thermal equilibrium of an iso-lated quantum system is at the fou...
We present a detailed study of the quantum dissipative dynamics of a charged particle in a magnetic ...
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....
PACS 03.65.Yz – Decoherence; open systems; quantum statistical methods PACS 05.70.Ln – Nonequilibriu...
This thesis studies problems concerning the dynamics and thermodynamics of manybody quantum systems...
We discuss how various parts of a quantum many-body system exchange energies at thermal equilibrium....