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Hauptverfasser: Bastarrachea-Magnani, Miguel A., Villaseñor, David, Chávez-Carlos, Jorge, Lerma-Hernández, Sergio, Santos, Lea F., Hirsch, Jorge G.
Format: Preprint
Veröffentlicht: 2023
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Online-Zugang:https://arxiv.org/abs/2307.03801
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author Bastarrachea-Magnani, Miguel A.
Villaseñor, David
Chávez-Carlos, Jorge
Lerma-Hernández, Sergio
Santos, Lea F.
Hirsch, Jorge G.
author_facet Bastarrachea-Magnani, Miguel A.
Villaseñor, David
Chávez-Carlos, Jorge
Lerma-Hernández, Sergio
Santos, Lea F.
Hirsch, Jorge G.
contents We study the multifractal behavior of coherent states projected in the energy eigenbasis of the spin-boson Dicke Hamiltonian, a paradigmatic model describing the collective interaction between a single bosonic mode and a set of two-level systems. By examining the linear approximation and parabolic correction to the mass exponents, we find ergodic and multifractal coherent states and show that they reflect details of the structure of the classical phase space, including chaos, regularity, and features of localization. The analysis of multifractality stands as a sensitive tool to detect changes and structures in phase space, complementary to classical tools to investigate it. We also address the difficulties involved in the multifractal analyses of systems with unbounded Hilbert spaces.
format Preprint
id arxiv_https___arxiv_org_abs_2307_03801
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Quantum multifractality as a probe of phase space in the Dicke model
Bastarrachea-Magnani, Miguel A.
Villaseñor, David
Chávez-Carlos, Jorge
Lerma-Hernández, Sergio
Santos, Lea F.
Hirsch, Jorge G.
Quantum Physics
Chaotic Dynamics
We study the multifractal behavior of coherent states projected in the energy eigenbasis of the spin-boson Dicke Hamiltonian, a paradigmatic model describing the collective interaction between a single bosonic mode and a set of two-level systems. By examining the linear approximation and parabolic correction to the mass exponents, we find ergodic and multifractal coherent states and show that they reflect details of the structure of the classical phase space, including chaos, regularity, and features of localization. The analysis of multifractality stands as a sensitive tool to detect changes and structures in phase space, complementary to classical tools to investigate it. We also address the difficulties involved in the multifractal analyses of systems with unbounded Hilbert spaces.
title Quantum multifractality as a probe of phase space in the Dicke model
topic Quantum Physics
Chaotic Dynamics
url https://arxiv.org/abs/2307.03801