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Thermalization in Trapped Bosonic Systems With Disorder (2407.04818v2)

Published 5 Jul 2024 in quant-ph and cond-mat.other

Abstract: A detailed study of thermalization is conducted on experimentally accessible states in a system of bosonic atoms trapped in an open linear chain with disorder. When the disorder parameter is large, the system exhibits regularity and localization. In contrast, weak disorder introduces chaos and raises questions about the validity of the Eigenstate Thermalization Hypothesis (ETH), especially for states at the extremes of the energy spectrum which remain regular and non-thermalizing. The validity of ETH is assessed by examining the dispersion of entanglement entropy and the number of bosons on the first site across various dimensions, while maintaining a constant particle density of one. Experimentally accessible states in the occupation basis are categorized using a crowding parameter that linearly correlates with their mean energy. Using full exact diagonalization to simulate temporal evolution, we study the equilibration of entanglement entropy, the number of bosons, and the reduced density matrix of the first site for all states in the occupation basis. Comparing equilibrium values of these observables with those predicted by microcanonical ensembles, we find that, within certain tolerances, most states in the chaotic region thermalize. However, states with low participation ratios in the energy eigenstate basis show greater deviations from thermal equilibrium values.

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