腔磁子系统中奇偶时对称性增强的同时磁子和光子阻断

Journal of Physics B Pub Date : 2023-11-01 DOI:10.1088/1361-6455/ad013a

Mehri Sadat Ebrahimi, Malek Bagheri Harouni

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引用次数: 0

摘要

摘要本文考虑了一个具有小磁子克尔非线性的磁子-光子相互作用的奇偶时对称腔磁子系统。此外，我们还研究了pt对称相位对磁振子和光子阻挡的影响。我们证明了通过适当选择系统参数可以实现的pt -对称相位可以放宽磁振子阻塞的大Kerr非线性要求。因此，即使存在很小的磁振子克尔非线性，也可以很容易地同时获得完美的磁振子和光子封锁。所选方案的突出特点是同时出现完美的磁振子和光子封锁，且磁振子克尔非线性值很小。虽然光子封锁可以很容易地在实验中区分出来，但磁振子统计的实验实现以及由此产生的磁振子封锁仍然是一个挑战。pt对称腔磁振子系统的突出特征可以通过光子统计量遵循磁振子封锁标准来缓解这一挑战。

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Parity-time symmetry-enhanced simultaneous magnon and photon blockade in cavity magnonic system

Abstract In this work, we consider a parity-time ( P T ) symmetric cavity magnonic system involving the magnon–photon interaction with small magnon Kerr nonlinearity. Moreover, we investigate the effect of P T -symmetry phase on both the magnon and photon blockade. We show that the P T -symmetry phase, which is achievable by properly selecting the system parameters, can relax the large Kerr nonlinearity requirement for magnon blockade. Consequently, simultaneous perfect magnon and photon blockade can be easily obtained even in the presence of a small value of magnon Kerr nonlinearity. The outstanding feature of the selected scheme is the occurrence of simultaneous perfect magnon and photon blockade with only a small value of magnon Kerr nonlinearity. While photon blockade can be easily distinguished experimentally, the experimental realization of magnon statistics and consequently magnon blockade is still a challenge. The prominent feature of the P T -symmetric cavity magnonic system can relax this challenge by following the magnon blockade criteria via the photon statistics.

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Journal of Physics B

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