Wang Hong-Fu, Zhu Ai-Dong, Zhang Shou
Department of Physics, College of Science, Yanbian University, Yanji, Jilin 133002, China.
Opt Express. 2013 May 20;21(10):12484-94. doi: 10.1364/OE.21.012484.
We propose an efficient protocol for optimizing the physical implementation of three-qubit quantum error correction with spatially separated quantum dot spins via virtual-photon-induced process. In the protocol, each quantum dot is trapped in an individual cavity and each two cavities are connected by an optical fiber. We propose the optimal quantum circuits and describe the physical implementation for correcting both the bit flip and phase flip errors by applying a series of one-bit unitary rotation gates and two-bit quantum iSWAP gates that are produced by the long-range interaction between two distributed quantum dot spins mediated by the vacuum fields of the fiber and cavity. The protocol opens promising perspectives for long distance quantum communication and distributed quantum computation networks.
我们提出了一种高效协议,用于通过虚拟光子诱导过程优化具有空间分离量子点自旋的三量子比特量子纠错的物理实现。在该协议中,每个量子点被捕获在一个单独的腔中,并且每两个腔通过一根光纤相连。我们提出了最优量子电路,并描述了通过应用一系列一位酉旋转门和两位量子iSWAP门来纠正比特翻转和相位翻转错误的物理实现,这些门是由光纤和腔的真空场介导的两个分布式量子点自旋之间的长程相互作用产生的。该协议为长距离量子通信和分布式量子计算网络开辟了广阔前景。