Add to ORKGThe spectral form factor (SFF), characterizing statistics of energy eigenvalues, is a key diagnostic of many-body quantum chaos. In addition, partial spectral form factors (pSFFs) can be defined which refer to subsystems of the many-body system. They provide unique insights into energy eigenstate statistics of many-body systems, as we show in an analysis on the basis of random matrix theory and of the eigenstate thermalization hypothesis. We propose a protocol which allows the measurement of SFF and pSFFs in quantum many-body spin models, within the framework of randomized measurements. Aimed to probe dynamical properties of quantum many-body systems, our scheme employs statistical correlations of local random operations which are applied a...
This thesis is concerned with many-body quantum dynamics in lattice models. Our focus is on the spec...
We study the time-evolution operator in a family of local quantum circuits with random fields in a f...
Ergodic quantum many-body systems satisfy the eigenstate thermalization hypothesis (ETH). However, s...
International audienceThe spectral form factor (SFF), characterizing statistics of energy eigenvalue...
A key goal of quantum chaos is to establish a relationship between widely observed universal spectra...
We study spectral statistics in spatially extended chaotic quantum many-body systems, using simple l...
Phenomena in quantum chaotic systems such as spectral fluctuations are known to be described remark...
International audienceWe investigate spectral statistics in spatially extended, chaotic many-body qu...
peer reviewedUnderstanding the emergence of quantum chaos in multipartite systems is challenging in ...
In quantum chaotic systems, the spectral form factor (SFF), defined as the Fourier transform of two-...
Abstract The spectral form factor is a powerful probe of quantum chaos that diagnoses the statistics...
We investigate spectral statistics in spatially extended, chaotic many-body quantum systems with a c...
Quantum chaos in many-body systems provides a bridge between statistical and quantum physics with st...
We propose a measure, which we call the dissipative spectral form factor (DSFF), to characterize the...
The spectral form factor is a powerful probe of quantum chaos that diagnoses the statistics of energ...
This thesis is concerned with many-body quantum dynamics in lattice models. Our focus is on the spec...
We study the time-evolution operator in a family of local quantum circuits with random fields in a f...
Ergodic quantum many-body systems satisfy the eigenstate thermalization hypothesis (ETH). However, s...
International audienceThe spectral form factor (SFF), characterizing statistics of energy eigenvalue...
A key goal of quantum chaos is to establish a relationship between widely observed universal spectra...
We study spectral statistics in spatially extended chaotic quantum many-body systems, using simple l...
Phenomena in quantum chaotic systems such as spectral fluctuations are known to be described remark...
International audienceWe investigate spectral statistics in spatially extended, chaotic many-body qu...
peer reviewedUnderstanding the emergence of quantum chaos in multipartite systems is challenging in ...
In quantum chaotic systems, the spectral form factor (SFF), defined as the Fourier transform of two-...
Abstract The spectral form factor is a powerful probe of quantum chaos that diagnoses the statistics...
We investigate spectral statistics in spatially extended, chaotic many-body quantum systems with a c...
Quantum chaos in many-body systems provides a bridge between statistical and quantum physics with st...
We propose a measure, which we call the dissipative spectral form factor (DSFF), to characterize the...
The spectral form factor is a powerful probe of quantum chaos that diagnoses the statistics of energ...
This thesis is concerned with many-body quantum dynamics in lattice models. Our focus is on the spec...
We study the time-evolution operator in a family of local quantum circuits with random fields in a f...
Ergodic quantum many-body systems satisfy the eigenstate thermalization hypothesis (ETH). However, s...