Related papers: Experimental study of coupled quantum billiards with integrable and chaotic classical dynamics and test of a special Rosenzweig-Porter model

Experimental study of coupled quantum billiards with integrable and chaotic classical dynamics and test of a special Rosenzweig-Porter model

URL: http://arxiv.org/abs/2601.11212v1
Date: Fri, 16 Jan 2026 11:37:49 GMT
Title: Experimental study of coupled quantum billiards with integrable and chaotic classical dynamics and test of a special Rosenzweig-Porter model
Authors: Xiaodong Zhang, Jiongning Che, Barbara Dietz,
Abstract summary: We report on the experimental study of the spectral properties of quantum systems consisting of two quantum billiards (QBs)<n>They are compared to those of a special case of the Rosenzweig-Porter model with random matrices.<n>We demonstrate that this model is suitable for the description of the experimental data and thus may be employed to determine the strength of the coupling.
Score: 1.037416330425084
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We report on the experimental study of the spectral properties of quantum systems consisting of two quantum billiards (QBs), one with chaotic, the other one with integrable classical dynamics, that are coupled to each other via an opening in a common wall. They are compared to those of a special case of the Rosenzweig-Porter model with random matrices composed of two diagonal blocks modeling the spectral properties of the QBs, that are coupled with a tunable parameter. We demonstrate that this model is suitable for the description of the experimental data and thus may be employed to determine the strength of the coupling. It results from the increasing overlap of eigenmodes in the QBs penetrating through the opening into the other one, leading to a mixing of their eigenstates, and the breaking of the symmetry present in the QB with integrable dynamics. This implicates deviations of the spectral properties from those of typical quantum systems with integrable and chaotic dynamics, respectively, and approaches those of a fully chaotic system for sufficiently large coupling strength. In contrast in previous studies the transition from integrable to chaotic dynamics was induced by introducing a random potential of increasing strength into such a QB and applicability of a variant of the Rosenzweig-Porter model was tested.

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