Dense coding scheme using superpositions of Bell-states and its NMR implementation

Science in China Series G: Physics and Astronomy Pub Date : 2005-02-01 DOI:10.1360/04YW0129
Jingfu Zhang, Jingyi Xie, Zhiwei Deng, Zhiheng Lu
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引用次数: 4

Abstract

Dense coding using superpositions of Bell-states is proposed. The generalized Grover’s algorithm is used to prepare the initial entangled states, and the reverse process of the quantum algorithm is used to determine the entangled state in the decoding measurement. Compared with the previous schemes, the superpositions of two Bell-states are exploited. Our scheme is demonstrated using a nuclear magnetic resonance (NMR) quantum computer. The corresponding manipulations are obtained. Experimental results show a good agreement between theory and experiment. We also generalize the scheme to transmit eight messages by introducing an additional two-state system.
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利用钟态叠加的密集编码方案及其核磁共振实现
提出了利用贝尔态叠加的密集编码方法。采用广义Grover算法制备初始纠缠态,在解码测量中采用量子算法的反向过程确定纠缠态。与以前的方案相比,利用了两个贝尔态的叠加。我们的方案是用核磁共振(NMR)量子计算机演示的。得到了相应的操作。实验结果表明,理论与实验结果吻合较好。我们还通过引入一个附加的双态系统将方案推广到传输8条消息。
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Science in China Series G: Physics and Astronomy
Science in China Series G: Physics and Astronomy
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