Add to ORKG© 2018 IOP Publishing Ltd and SISSA Medialab srl. A possible quantum-mechanical origin of statistical mechanics is discussed, and microcanonical and canonical ensembles of bosons and fermions are derived from the stationary Schrödinger equation in a unified manner. The interaction Hamiltonians are constructed using discrete phase operators and the gauge-theoretical structure associated with them. It is shown how interaction Hamiltonians, stipulated by the gauge symmetry, generate the specific patterns of entanglement desired for establishing microcanonical ensembles. A discussion is also made about the interrelation between random phases and perfect decoherence in the vanishing-interaction limit
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
We develop a pairing mean-field theory to describe the quantum dynamics of the dissociation of molec...
We study the interpolation from occupation number Fock states to Schr\uf6dinger cat states on system...
© 2018 IOP Publishing Ltd and SISSA Medialab srl. A possible quantum-mechanical origin of statistica...
© Published under licence by IOP Publishing Ltd. The problem of deriving statistical mechanics from ...
The capabilities of a new approach towards the foundations of Statistical Mechanics are explored. Th...
We review a progress in understanding of statistical properties of a quantum degenerate Bose gas. We...
The dynamical evolution of an ultracold Bose gas distributed across the sites of an optical lattice ...
We give a definition for the notion of statistics in the lattice-theoretical (or propositional) form...
In this survey article we explain a few ideas behind the framework of the fermionic projector and su...
Introduction We review our approach to study quantum statistical mechanics on RobertsonWalker space...
I give a pedagogical introduction to some of the many particles and gauge fields that can emerge in ...
Motivated by rapid experimental progress in the fields of ultracold atoms and quantum optics, I pres...
The interacting quantum Bose gas is a random ensemble of many Brownian bridges (cycles) of various l...
The interplay between spontaneously broken gauge symmetries and Bose-Einstein condensation has long ...
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
We develop a pairing mean-field theory to describe the quantum dynamics of the dissociation of molec...
We study the interpolation from occupation number Fock states to Schr\uf6dinger cat states on system...
© 2018 IOP Publishing Ltd and SISSA Medialab srl. A possible quantum-mechanical origin of statistica...
© Published under licence by IOP Publishing Ltd. The problem of deriving statistical mechanics from ...
The capabilities of a new approach towards the foundations of Statistical Mechanics are explored. Th...
We review a progress in understanding of statistical properties of a quantum degenerate Bose gas. We...
The dynamical evolution of an ultracold Bose gas distributed across the sites of an optical lattice ...
We give a definition for the notion of statistics in the lattice-theoretical (or propositional) form...
In this survey article we explain a few ideas behind the framework of the fermionic projector and su...
Introduction We review our approach to study quantum statistical mechanics on RobertsonWalker space...
I give a pedagogical introduction to some of the many particles and gauge fields that can emerge in ...
Motivated by rapid experimental progress in the fields of ultracold atoms and quantum optics, I pres...
The interacting quantum Bose gas is a random ensemble of many Brownian bridges (cycles) of various l...
The interplay between spontaneously broken gauge symmetries and Bose-Einstein condensation has long ...
Bose-Einstein condensation, theoretically known to appear at ultralow temperatures since the 1920s, ...
We develop a pairing mean-field theory to describe the quantum dynamics of the dissociation of molec...
We study the interpolation from occupation number Fock states to Schr\uf6dinger cat states on system...