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Comment on "Fault-Tolerate Quantum Private Comparison Based on GHZ States and ECC"

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arxiv 1405.6765 v1 pith:X5UFEM2Y submitted 2014-05-27 quant-ph

Comment on "Fault-Tolerate Quantum Private Comparison Based on GHZ States and ECC"

classification quant-ph
keywords particlesattackauxiliarycomparisonfault-tolerateoperationsprivatequantum
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A two-party quantum private comparison scheme using GHZ states and error-correcting code (ECC) was introduced in Li et al.'s paper [Int. J. Theor. Phys. 52: 2818-2815, 2013], which holds the capability of fault-tolerate and could be performed in a none-ideal scenario. However, this study points out there exists a fatal loophole under a special attack, namely the twice-Hadamard-CNOT attack. A malicious party may intercept the other's particles, firstly executes the Hadamard operations on these intercepted particles and his (her) own ones respectively, and then sequentially performs twice CNOT operations on them and the auxiliary particles prepared in advance. As a result, the secret input will be revealed without being detected through measuring the auxiliary particles. For resisting this special attack, an improvement is proposed by applying a permutation operator before TP sends the particle sequences to all the participants.

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