Disentanglement–Induced Bistability in a Magnetic Resonator

IF 4.3 Q1 OPTICS

Advanced quantum technologies Pub Date : 2025-01-22 DOI:10.1002/qute.202400587

Eyal Buks

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Abstract

Multi–stability in the response of a ferrimagnetic spin resonator to an externally applied driving is experimentally studied. The observed multi–stability cannot be derived from any master equation that linearly depends on the spins' reduced density operator. Traditionally, the nonlinearity that is required in order to theoretically account for the observed multi–stability is introduced by implementing the method of Bosonization. Here, an alternative explanation, which is based on the hypothesis that disentanglement spontaneously occurs in quantum systems is explored. According to this hypothesis, time evolution is governed by a master equation having an added nonlinear term, which deterministically generates disentanglement. Experimental results are compared with predictions derived from both competing theoretical models. It is found that better agreement with data is obtained from the disentanglement–based model. This finding, together with a difficulty to justify the Bosonization–based model, indirectly support the spontaneous disentanglement hypothesis.

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磁谐振器中解纠缠诱导的双稳性

实验研究了铁磁自旋谐振器对外部驱动响应的多重稳定性。观测到的多重稳定性不能由任何线性依赖于自旋的约化密度算子的主方程推导出来。传统上，为了从理论上解释观测到的多重稳定性，非线性是通过实现玻色化方法引入的。在这里，另一种解释，这是基于假设，解纠缠自发地发生在量子系统被探索。根据这一假设，时间演化是由一个具有附加非线性项的主方程控制的，该非线性项确定地产生解纠缠。实验结果与两个相互竞争的理论模型的预测结果进行了比较。结果表明，基于解纠缠的模型与实际数据具有较好的一致性。这一发现，连同证明基于玻色子化模型的困难，间接地支持了自发解纠缠假说。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced quantum technologies

CiteScore

7.90

自引率

0.00%

发文量