Recent years have seen tremendous progress in the theoretical understanding of quantum
systems driven dissipatively by coupling to different baths at their edges. This was possible …

Recent progress in applying complex network theory to problems in quantum information
has resulted in a beneficial cross-over. Complex network methods have successfully been …

The theory of open quantum systems is one of the most essential tools for the development
of quantum technologies. Furthermore, the Lindblad (or Gorini-Kossakowski-Sudarshan …

We investigate how symmetries and conserved quantities relate to the occurrence of the
boundary time crystal (BTC) phase in a generalized spin model with Lindblad dissipation …

Robust quantum energy storage devices are essential to realize powerful next-generation
batteries. Herein, we provide a proof of concept for a loss-free excitonic quantum battery …

In driven-dissipative systems, the presence of a strong symmetry guarantees the existence
of several steady states belonging to different symmetry sectors. Here we show that when a …

We study the null space degeneracy of open quantum systems with multiple non-abelian,
strong symmetries. By decomposing the Hilbert space representation of these symmetries …

We address the structure of the Liouvillian superoperator for a broad class of bosonic and
fermionic Markovian open systems interacting with stationary environments. We show that …

We demonstrate the inadequacy of mean-field theory by exploring the effects of initial-state
correlations on the dynamics of continuous time crystals, motivating the need for higher …

Controlling transport in quantum systems holds the key to many promising quantum
technologies. Here we review the power of symmetry as a resource to manipulate quantum …