Fault-Tolerant Quantum Dialogue Without Information Leakage Based on Entanglement Swapping between Two Logical Bell States |
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Authors: | YE Tian-Yu |
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Affiliation: | College of Information & Electronic Engineering, Zhejiang Gongshang University, Hangzhou 310018, China |
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Abstract: | At present, the anti-noise property and the information leakage resistant property are two great concerns for quantum dialogue(QD). In this paper, two anti-noise QD protocols without information leakage are presented by using the entanglement swapping technology for two logical Bell states. One works well over a collective-dephasing noise channel, while the other takes effect over a collective-rotation noise channel. The negative influence of noise is erased by using logical Bell states as the traveling quantum states. The problem of information leakage is avoided by swapping entanglement between two logical Bell states. In addition, only Bell state measurements are used for decoding, rather than four-qubit joint measurements. |
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Keywords: | quantum dialogue (QD) information leakage entanglement swapping logical Bell state collective-dephasing noise collective-rotation noise |
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