Dissipative collective effects are ubiquitous in quantum physics and their relevance ranges
from the study of entanglement in biological systems to noise mitigation in quantum …

We study the effect of non-Markovianity in the charging process of an open-system quantum
battery. We employ a collisional model framework, where the environment is described by a …

We investigate the nonstationary phenomenon in a tripartite spin-1/2 system in the collision
model (CM) framework. After introducing the dissipation through the system-environment …

Quantum many-body scars are nonthermal excited eigenstates of nonintegrable
Hamiltonians, which could support coherent revival dynamics from special initial states …

The present paper is a continuation of earlier appeared work, where we have constructed
Quantum Markov Chains (QMC) associated with Open Quantum Random Walks and …

Digital quantum computers have the potential to study the dynamics of many-body quantum
systems. Nonequilibrium open quantum systems are, however, less straightforward to be …

State-of-the-art quantum simulators permit local temporal control of interactions and
midcircuit readout. These capabilities open the way towards the exploration of intriguing …

The possibility of extracting more work from a physical system thanks to the information
obtained from measurements has been a topic of fundamental interest in the context of …

Quantum collision models normally consist of a system interacting with a set of ancillary
units representing the environment. While these ancillary systems are usually assumed to …

Enhanced experimental capabilities to control nonlocal and power-law decaying
interactions are currently fuelling intense research in the domain of quantum many-body …