Add to ORKGChaos sets a fundamental limit to quantum-information processing schemes. We study the onset of chaos in spatially extended quantum many-body systems that are relevant to quantum optical devices. We consider an extended version of the Tavis-Cummings model on a finite chain. By studying level-spacing statistics, adjacent gap ratios, and spectral form factors, we observe the transition from integrability to chaos as the hopping between the Tavis-Cummings sites is increased above a finite value. The results are obtained by means of exact numerical diagonalization which becomes notoriously hard for extended lattice geometries. In an attempt to circumvent these difficulties, we identify a minimal single-site quantum impurity model which successf...
We review the fundamental concepts of quantum chaos in Hamiltonian systems. The quantum evolution of...
Chaos in many-body quantum systems is of great importance to both many-body physics as well as black...
peer reviewedUnderstanding the emergence of quantum chaos in multipartite systems is challenging in ...
Chaos sets a fundamental limit to quantum-information processing schemes. We study the onset of chao...
Phenomena in quantum chaotic systems such as spectral fluctuations are known to be described remark...
We solve a minimal model for an ergodic phase in a spatially extended quantum many-body system. The ...
We study spectral statistics in spatially extended chaotic quantum many-body systems, using simple l...
Quantum chaos is associated with the phenomenon of avoided level crossings on a large scale which le...
We solve a minimal model for an ergodic phase in a spatially extended quantum many-body system. The ...
Recently, the question of a relevance of the so-called quantum chaos has been raised in applications...
Integrable quantum systems of finite size are generically robust against weak enough integrability-b...
In this thesis, we consider complex dynamical evolutions which could be realized experimentally with...
We study the consequences of having translational invariance in space and time in many-body quantum ...
We study signatures of quantum chaos in $(1+1)D$ quantum field theory (QFT) models. Our analysis is ...
10 pages, 4 figures, technical problem with figures fixedInternational audienceWe present an extensi...
We review the fundamental concepts of quantum chaos in Hamiltonian systems. The quantum evolution of...
Chaos in many-body quantum systems is of great importance to both many-body physics as well as black...
peer reviewedUnderstanding the emergence of quantum chaos in multipartite systems is challenging in ...
Chaos sets a fundamental limit to quantum-information processing schemes. We study the onset of chao...
Phenomena in quantum chaotic systems such as spectral fluctuations are known to be described remark...
We solve a minimal model for an ergodic phase in a spatially extended quantum many-body system. The ...
We study spectral statistics in spatially extended chaotic quantum many-body systems, using simple l...
Quantum chaos is associated with the phenomenon of avoided level crossings on a large scale which le...
We solve a minimal model for an ergodic phase in a spatially extended quantum many-body system. The ...
Recently, the question of a relevance of the so-called quantum chaos has been raised in applications...
Integrable quantum systems of finite size are generically robust against weak enough integrability-b...
In this thesis, we consider complex dynamical evolutions which could be realized experimentally with...
We study the consequences of having translational invariance in space and time in many-body quantum ...
We study signatures of quantum chaos in $(1+1)D$ quantum field theory (QFT) models. Our analysis is ...
10 pages, 4 figures, technical problem with figures fixedInternational audienceWe present an extensi...
We review the fundamental concepts of quantum chaos in Hamiltonian systems. The quantum evolution of...
Chaos in many-body quantum systems is of great importance to both many-body physics as well as black...
peer reviewedUnderstanding the emergence of quantum chaos in multipartite systems is challenging in ...