Periodically and quasi-periodically driven dynamics of Bose-Einstein condensates

Creators: Zhang, Pengfei; Gu, Yingfei

Abstract

We study the quantum dynamics of Bose-Einstein condensates when the scattering length is modulated periodically or quasi-periodically in time within the Bogoliubov framework. For the periodically driven case, we consider two protocols where the modulation is a square-wave or a sine-wave. In both protocols for each fixed momentum, there are heating and non-heating phases, and a phase boundary between them. The two phases are distinguished by whether the number of excited particles grows exponentially or not. For the quasi-periodically driven case, we again consider two protocols: the square-wave quasi-periodicity, where the excitations are generated for almost all parameters as an analog of the Fibonacci-type quasi-crystal; and the sine-wave quasi-periodicity, where there is a finite measure parameter regime for the non-heating phase. We also plot the analogs of the Hofstadter butterfly for both protocols.

Additional Information

© 2020 P. Zhang and Y. Gu. This work is licensed under the Creative Commons Attribution 4.0 International License. Published by the SciPost Foundation. Received 11-08-2020; Accepted 17-11-2020; Published 23-11-2020. We acknowledge Ruihua Fan, Ashvin Vishwanath, Xueda Wen and Zhigang Wu for discussions. P.Z. acknowledges support from the Walter Burke Institute for Theoretical Physics at Caltech. Y.G. is supported by the Gordon and Betty Moore Foundation EPiQS Initiative through Grant (GBMF-4306), and the US Department of Energy through Grant DE-SC0019030.

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Published - SciPostPhys_9_5_079.pdf

Submitted - 2008.00373.pdf

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