Add to ORKGPhase-space representations are of increasing importance as a viable and successful means to study exponentially complex quantum many-body systems from first principles. This review traces the background of these methods, starting from the early work of Wigner, Glauber and Sudarshan. We focus on modern phase-space approaches using non-classical phase-space representations. These lead to the Gaussian representation, which unifies bosonic and fermionic phase-space. Examples treated include quantum solitons in optical fibers, colliding Bose-Einstein condensates, and strongly correlated fermions on lattices
The quantum dynamics and grand canonical thermodynamics of many-mode (one-, two-, and three-dimensio...
We review recent developments in the theory of quantum dynamics in ultracold atomic physics, includi...
The phase-space-picture approach to quantum non-equilibrium statistical mechanics via the characteri...
Phase-space representations are of increasing importance as a viable and successful means to study e...
Phase-space representations are of increasing importance as a viable and successful means to study e...
We introduce a positive phase-space representation for fermions, using the most general possible mul...
We introduce a Gaussian quantum operator representation, using the most general possible multimode G...
We introduce a unified Gaussian quantum operator representation for fermions and bosons. The represe...
Understanding the collective behaviour of many-body quantum systems is an important subject in many ...
We give an outlook on the future of coherence theory and many-body quantum dynamics as experiments d...
We demonstrate that the quantum dynamics of a many-body Fermi-Bose system can be simulated using a G...
We introduce a new class of quantum Monte Carlo methods, based on a Gaussian quantum operator repres...
We introduce a phase-space representation for qubits and spin models. The technique uses an SU(n) co...
We present a phase-space method for fermionic systems, which enables simulations of the dynamics and...
A Gaussian operator basis provides a means to formulate phase-space simulations of the real- and ima...
The quantum dynamics and grand canonical thermodynamics of many-mode (one-, two-, and three-dimensio...
We review recent developments in the theory of quantum dynamics in ultracold atomic physics, includi...
The phase-space-picture approach to quantum non-equilibrium statistical mechanics via the characteri...
Phase-space representations are of increasing importance as a viable and successful means to study e...
Phase-space representations are of increasing importance as a viable and successful means to study e...
We introduce a positive phase-space representation for fermions, using the most general possible mul...
We introduce a Gaussian quantum operator representation, using the most general possible multimode G...
We introduce a unified Gaussian quantum operator representation for fermions and bosons. The represe...
Understanding the collective behaviour of many-body quantum systems is an important subject in many ...
We give an outlook on the future of coherence theory and many-body quantum dynamics as experiments d...
We demonstrate that the quantum dynamics of a many-body Fermi-Bose system can be simulated using a G...
We introduce a new class of quantum Monte Carlo methods, based on a Gaussian quantum operator repres...
We introduce a phase-space representation for qubits and spin models. The technique uses an SU(n) co...
We present a phase-space method for fermionic systems, which enables simulations of the dynamics and...
A Gaussian operator basis provides a means to formulate phase-space simulations of the real- and ima...
The quantum dynamics and grand canonical thermodynamics of many-mode (one-, two-, and three-dimensio...
We review recent developments in the theory of quantum dynamics in ultracold atomic physics, includi...
The phase-space-picture approach to quantum non-equilibrium statistical mechanics via the characteri...