Add to ORKGDark states are stationary states of a dissipative, Lindblad-type time evolution with zero von Neumann entropy, therefore representing examples of pure steady states. Nonequilibrium dynamics featuring a dark state recently gained a lot of attraction since their implementation in the context of driven-open quantum systems represents a viable possibility to engineer unique, pure states. Inspired by recent experimental progress with ultracold Rydberg ensembles, we analyze a driven many-body spin system, which displays a mean-field bistability between a dark steady state and a mixed steady state. As a function of the driving strength one observes a discontinuous phase transition that connects the zero entropy (dark) state with a finite entropy ...
We study the critical behavior of the nonequilibrium dynamics and of the steady states emerging from...
Stochastic processes with absorbing states feature examples of non-equilibrium universal phenomena. ...
Collective coupling of an ensemble of particles to a light field is commonly described by the Tavis-...
Dark states are stationary states of a dissipative, Lindblad-type time evolution with zero von Neuma...
We introduce the concept of dark space phase transition, which may occur in open many-body quantum s...
Understanding and probing phase transitions in nonequilibrium systems is an ongoing challenge in phy...
Dark states are eigenstates or steady states of a system that are decoupled from the radiation. Thei...
This thesis presents several experiments investigating the regimes of behaviour of a proto-typical o...
Coupling a system to a nonthermal environment can profoundly affect the phase diagram of the closed ...
Nonequilibrium states of closed quantum many-body systems defy a thermodynamic description. As a con...
We study nonequilibrium processes in an isolated quantum system-the Dicke model-focusing on the role...
We study the non-equilibrium dynamics of driven spin lattices in the presence of decoherence caused ...
A deeper theoretical understanding of driven-dissipative interacting systems and their nonequilibriu...
Adiabatic techniques using multilevel systems have recently been generalized from the optical case t...
We study the critical behavior of the nonequilibrium dynamics and of the steady states emerging from...
Stochastic processes with absorbing states feature examples of non-equilibrium universal phenomena. ...
Collective coupling of an ensemble of particles to a light field is commonly described by the Tavis-...
Dark states are stationary states of a dissipative, Lindblad-type time evolution with zero von Neuma...
We introduce the concept of dark space phase transition, which may occur in open many-body quantum s...
Understanding and probing phase transitions in nonequilibrium systems is an ongoing challenge in phy...
Dark states are eigenstates or steady states of a system that are decoupled from the radiation. Thei...
This thesis presents several experiments investigating the regimes of behaviour of a proto-typical o...
Coupling a system to a nonthermal environment can profoundly affect the phase diagram of the closed ...
Nonequilibrium states of closed quantum many-body systems defy a thermodynamic description. As a con...
We study nonequilibrium processes in an isolated quantum system-the Dicke model-focusing on the role...
We study the non-equilibrium dynamics of driven spin lattices in the presence of decoherence caused ...
A deeper theoretical understanding of driven-dissipative interacting systems and their nonequilibriu...
Adiabatic techniques using multilevel systems have recently been generalized from the optical case t...
We study the critical behavior of the nonequilibrium dynamics and of the steady states emerging from...
Stochastic processes with absorbing states feature examples of non-equilibrium universal phenomena. ...
Collective coupling of an ensemble of particles to a light field is commonly described by the Tavis-...