Related papers: Controlling stable tunneling in a non-Hermitian spin-orbit coupled bosonic junction

Controlling stable tunneling in a non-Hermitian spin-orbit coupled bosonic junction

URL: http://arxiv.org/abs/2005.04627v2
Date: Thu, 30 Jul 2020 01:47:38 GMT
Title: Controlling stable tunneling in a non-Hermitian spin-orbit coupled bosonic junction
Authors: Yunrong Luo, Xuemei Wang, Yuxin Luo, Zheng Zhou, Zhao-Yun Zeng, and Xiaobing Luo
Abstract summary: We study how to apply a periodic driving field to control stable spin tunneling in a non-Hermitian spin-orbit coupled bosonic system. We find that the stable spin-flipping tunneling is preferentially suppressed with the increase of gain-loss strength. The results could be useful for the experiments of controlling stable spin transportation in a non-Hermitian spin-orbit coupled system.
Score: 2.318181329756016
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this paper, we study how to apply a periodic driving field to control stable spin tunneling in a non-Hermitian spin-orbit coupled bosonic double-well system. By means of a high-frequency approximation, we obtain the analytical Floquet solutions and their associated quasienergies and thus construct the general non-Floquet solutions of the dissipative spin-orbit coupled bosonic system. Based on detailed analysis of the Floquet quasienergy spectrum, the profound effect of system parameters and the periodic driving field on the stability of spin-dependent tunneling is investigated analytically and numerically for both balanced and unbalanced gain-loss between two wells. Under balanced gain and loss, we find that the stable spin-flipping tunneling is preferentially suppressed with the increase of gain-loss strength. When the ratio of Zeeman field strength to periodic driving frequency $\Omega/\omega$ is even, there is a possibility that \emph{continuous} stable parameter regions will exist. When $\Omega/\omega$ is odd, nevertheless, only \emph{discrete} stable parameter regions are found. Under unbalanced gain and loss, whether $\Omega/\omega$ is even or odd, we can get parametric equilibrium conditions for the existence of stable spin tunneling. The results could be useful for the experiments of controlling stable spin transportation in a non-Hermitian spin-orbit coupled system.

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