Related papers: Spectral form factor and power spectrum for trapped rotating interacting bosons: An exact diagonalization study

Spectral form factor and power spectrum for trapped rotating interacting bosons: An exact diagonalization study

URL: http://arxiv.org/abs/2512.00828v1
Date: Sun, 30 Nov 2025 10:31:29 GMT
Title: Spectral form factor and power spectrum for trapped rotating interacting bosons: An exact diagonalization study
Authors: Mohd Talib, M. A. H. Ahsan,
Abstract summary: We present an exact diagonalization study of the spectral form factor and the power spectrum for externally impressed bosons in a harmonic trap.<n>Our focus is on the spectral correlations arising from the condensate depletion as a result of the formation of quantized vortices and the strong interaction.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We present an exact diagonalization study of the spectral form factor and the power spectrum for externally impressed rotating bosons in a quasi-two-dimensional harmonic trap interacting via repulsive Gaussian potential. Our focus is on the spectral correlations arising from the condensate depletion as a result of the formation of quantized vortices and the strong interaction, which leads to chaos in the system. We consider two distinct interaction regimes: moderate, where the interaction energy is small compared to the trap energy, and strong, where it is comparable. For the non-rotating case, the spectral form factor (SFF) in the moderate interaction regime exhibits a dip-plateau structure characteristic of integrable systems, while in the strong interaction regime it develops a weak ramp, signalling a transition to pseudo-integrable behavior. For the rotating single-vortex state, the SFF in the moderate interaction regime shows the onset of a weak ramp consistent with pseudo-integrability, whereas in the strong interaction regime the ramp becomes significantly more pronounced, indicating strongly chaotic behavior. For the multi-vortex states in the strong interacting regime, the SFF exhibits a clear dip-ramp-plateau structure, indicative of chaotic behavior. The corresponding power spectrum results further corroborate these findings: integrable system exhibits the characteristic $1/f^α$ (with $α\approx2$) noise, chaotic system shows the ubiquitous $1/f^α$ (with $α\approx 1$) noise, and pseudo-integrable system yields intermediate exponents with $1 < α< 2$.

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