The Jaynes–Cummings Model (JCM) has recently been receiving increased attention as
one of the simplest, yet intricately nonlinear, models of quantum physics. Emphasising the …

Synthesizing many-body quantum systems with various ranges of interactions facilitates the
study of quantum chaotic dynamics. Such extended interaction range can be enabled by …

Many-body unitary dynamics interspersed with repeated measurements display a rich
phenomenology hallmarked by measurement-induced phase transitions. Employing …

The high level of control and precision achievable in current synthetic quantum matter
setups has enabled first attempts at quantum-simulating various intriguing phenomena in …

We explore the dynamical phases of unitary Clifford circuits with variable-range interactions,
coupled to a monitoring environment. We investigate two classes of models, distinguished …

Closed quantum systems exhibit different dynamical regimes, like many-body localization or
thermalization, which determine the mechanisms of spread and processing of information …

Trapped-ion quantum simulators, in analog and digital modes, are considered a primary
candidate to achieve quantum advantage in quantum simulation and quantum computation …

Quantum systems evolving unitarily and subject to quantum measurements exhibit various
types of non-equilibrium phase transitions, arising from the competition between unitary …

In recent years, dynamical phase transitions and out-of-equilibrium criticality have been at
the forefront of ultracold gases and condensed matter research. Whereas universality and …

The evolution of a quantum system subject to measurements can be described by stochastic
quantum trajectories of pure states. Instead, the ensemble average over trajectories is a …