具有耦合腔波导系统的量子路由器中单光子与两个量子点相互作用的可调谐路由特性

IF 1.7 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

The European Physical Journal B Pub Date : 2025-08-27 DOI:10.1140/epjb/s10051-025-01017-x

Myong-Chol Ko, Sung-Jin Kim, Nam-Chol Kim, Su-Ryon Ri, Ju-Song Ryom, Kang-Sa Yun, Chung-Song Jo

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引用次数: 0

摘要

为了实现单光子路由器，提出了一种具有两个量子点的微晶型耦合腔波导的理论模型，其中两个量子点分别嵌入在两个无限耦合腔波导和一个有限耦合腔波导的两个节点中。基于离散散射方程，从理论上研究了入射单光子的传输、反射和传输速率等路由特性。研究发现，两个量子点与三个耦合腔波导之间的耦合强度、两个量子点的跃迁能量、波矢量、入射单光子的能量等参数可以对其进行控制。特别是当\(\omega_{e}^{(1)} = \omega_{e}^{(2)} = 10\)时，在\(k = 2n{\pi \mathord{\left/ {\vphantom {\pi 4}} \right. \kern-0pt} 4}\,(n = 1,2,...)\)情况下，入射的单光子相对于共振能量有两个对称的峰，而在\(k = (2n + 1){\pi \mathord{\left/ {\vphantom {\pi 4}} \right. \kern-0pt} 4}\,(n = 0,1,2,...)\)情况下，由于两个量子点之间的量子干涉，只出现一个蓝移或红移的转移峰。微晶量子路由器中单光子的可调路由特性可能在未来的量子器件中具有潜在的应用价值。图形摘要

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Tunable routing properties of single photon interacting with two quantum dots in a quantum router with the工-type coupled cavity waveguide system

A theoretical model of 工-shaped coupled-cavity waveguide with two quantum dots is proposed to realize the single photon router, where the two quantum dots are embedded in two nodes of two infinite coupled-cavity and a finite coupled-cavity waveguide respectively. Based on the discrete scattering equations, the routing properties such as transmission, reflection, and the transfer rate of the incident single photons are theoretically investigated. It is found that they can be controlled by various parameters such as the coupling strength between two quantum dots and three coupled-cavity waveguides, the transition energies of two quantum dots, wave vector, and the energy of the incident single photons, etc. Especially, when \(\omega_{e}^{(1)} = \omega_{e}^{(2)} = 10\), in case of \(k = 2n{\pi \mathord{\left/ {\vphantom {\pi 4}} \right. \kern-0pt} 4}\,(n = 1,2,...)\),the incident single photons have two symmetric peaks with relative to the resonant energy, but in case of \(k = (2n + 1){\pi \mathord{\left/ {\vphantom {\pi 4}} \right. \kern-0pt} 4}\,(n = 0,1,2,...)\), there appears only one transfer peak with blue or red shift due to the quantum interference between the two quantum dots. The tunable routing properties of the single photons in the 工-shape quantum router might have potential applications for future quantum devices.