One of the general mechanisms that give rise to the slow cooperative relaxation characteristic of classical glasses is the presence of kinetic constraints in the dynamics. Here we show that dynamical constraints can similarly lead to slow thermalization and metastability in translationally invariant quantum many-body systems. We illustrate this general idea by considering two simple models: (i) a one-dimensional quantum analogue to classical constrained lattice gases where excitation hopping is constrained by the state of neighboring sites, mimicking excluded-volume interactions of dense fluids; and (ii) fully packed quantum dimers on the square lattice. Both models have a Rokhsar-Kivelson (RK) point at which kinetic and potential energy co...
Thermalization is ubiquitous to all physical systems and is an essential assumption for the postulat...
Thermalization, the evolution of an interacting many-body system towards a thermal Gibbs ensemble af...
There has been a surge of interest in studying truly nonequilibrium quantum many-body phenomena, mot...
One of the general mechanisms that give rise to the slow cooperative relaxation characteristic of cl...
With the aim to understand the role of the constraints in the thermalization of quantum systems, we ...
The relaxation of few-body quantum systems can strongly depend on the initial state when the system’...
Constraints in the dynamics of quantum many-body systems can dramatically alter transport properties...
Kinetically constrained spin systems play an important role in understanding key properties of the d...
Many-body quantum systems typically display fast dynamics and ballistic spreading of information. He...
When classical systems fail to explore their entire configurational space, intriguing macroscopic ph...
We study in detail an open quantum generalization of a classical kinetically constrained model - the...
Many-body localization (MBL) has emerged as a novel paradigm for robust ergodicity breaking in close...
We investigate the nonequilibrium dynamics of the bosonic Hubbard model starting from inhomogeneous ...
We provide evidence of an extremely slow thermalization occurring in the discrete nonlinear Schrödin...
We establish a setting—atoms in optical superlattices with period 2—in which one can experimentally ...
Thermalization is ubiquitous to all physical systems and is an essential assumption for the postulat...
Thermalization, the evolution of an interacting many-body system towards a thermal Gibbs ensemble af...
There has been a surge of interest in studying truly nonequilibrium quantum many-body phenomena, mot...
One of the general mechanisms that give rise to the slow cooperative relaxation characteristic of cl...
With the aim to understand the role of the constraints in the thermalization of quantum systems, we ...
The relaxation of few-body quantum systems can strongly depend on the initial state when the system’...
Constraints in the dynamics of quantum many-body systems can dramatically alter transport properties...
Kinetically constrained spin systems play an important role in understanding key properties of the d...
Many-body quantum systems typically display fast dynamics and ballistic spreading of information. He...
When classical systems fail to explore their entire configurational space, intriguing macroscopic ph...
We study in detail an open quantum generalization of a classical kinetically constrained model - the...
Many-body localization (MBL) has emerged as a novel paradigm for robust ergodicity breaking in close...
We investigate the nonequilibrium dynamics of the bosonic Hubbard model starting from inhomogeneous ...
We provide evidence of an extremely slow thermalization occurring in the discrete nonlinear Schrödin...
We establish a setting—atoms in optical superlattices with period 2—in which one can experimentally ...
Thermalization is ubiquitous to all physical systems and is an essential assumption for the postulat...
Thermalization, the evolution of an interacting many-body system towards a thermal Gibbs ensemble af...
There has been a surge of interest in studying truly nonequilibrium quantum many-body phenomena, mot...