量子纠缠
物理
量子
量子网络
消散
磁学
量子力学
拓扑(电路)
工程类
电子
电气工程
自旋极化
自旋霍尔效应
作者
Nan Wang,Zhi‐Bo Yang,Shiyan Li,Tingting Dong,Ai‐Dong Zhu
标识
DOI:10.1140/epjqt/s40507-023-00172-3
摘要
Abstract Quantum steering plays a crucial role in quantum communication and one-way quantum computation. Here, we study quantum steering between two magnon modes in a cavity-magnonics system by applying a two-photon drive field to the microwave cavity. The two magnon modes are entangled and the one-way steering can be implemented when the four-wave mixing is triggered. Different from most schemes that use the dissipation of the system to control quantum steering, in our scheme the one-way steering can be modulated on demand by adjusting the coherent coupling ratio between the two magnons and the cavity, which provides a flexible and feasible way in experiments. We also reveal that the directionality of quantum steering is related to the mode populations, i.e., the mode with a larger population dominants the steering. Our study has high manipulability and may provide a promising platform for one-way quantum computing and communications based on macroscopic entanglement state.
科研通智能强力驱动
Strongly Powered by AbleSci AI