On the hardness of distinguishing mixed-state quantum computations

机译：关于区分混合态量子计算的难点

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This paper considers the following problem. Two mixed-state quantum circuits Q/sub 0/ and Q/sub 1/ are given, and the goal is to determine which of two possibilities holds: (i) Q/sub 0/ and Q/sub 1/ act nearly identically on all possible quantum state inputs, or (ii) there exists some input state /spl rho/ that Q/sub 0/ and Q/sub 1/ transform into almost perfectly distinguishable outputs. This may be viewed as an abstraction of the problem that asks, given two discrete quantum mechanical processes described by sequences of local interactions, are the processes effectively the same or are they different? We prove that this promise problem is complete for the class QIP of problems having quantum interactive proof systems, and is therefore PSPACE-hard. This is in contrast to the fact that the analogous problem for classical (probabilistic) circuits is in AM, and for unitary quantum circuits is in QMA.

机译：本文考虑以下问题。给出了两个混合态量子电路Q / sub 0 /和Q / sub 1 /，目的是确定两种可能性中的哪一个成立：（i）Q / sub 0 /和Q / sub 1 /几乎相同地作用于所有可能的量子状态输入，或（ii）存在一些输入状态/ spl rho /，Q / sub 0 /和Q / sub 1 /转换为几乎完全可区分的输出。给定由局部相互作用序列描述的两个离散量子力学过程，这可以看作是问题的抽象，这些过程实际上是相同的还是不同的？我们证明，该承诺问题对于具有量子交互证明系统的问题的QIP类是完整的，因此是PSPACE难题。这与以下事实相反：经典（概率）电路的类似问题在AM中，而单量子电路的问题在QMA中。

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《》|2005年|P.344-354|共11页
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Rosgen; B.; Watrous; J.;
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中图分类工业技术;
关键词
circuit complexity; interactive systems; quantum computing; theorem proving; PSPACE-hard porblem; QMA; discrete quantum mechanical process; local interactions; mixed-state quantum circuits; mixed-state quantum computations; probabilistic circuits; quantum interacti;

机译：电路复杂度;交互系统;量子计算;定理证明; PSPACE-硬问题; QMA;离散量子力学过程;局部相互作用;混合态量子电路;混合态量子计算;概率电路;量子相互作用;

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1. Experimental detection of nonclassical correlations in mixed-state quantum computation [J] . G. Passante, O. Moussa, D. A. Trottier, Physical Review, A. Atomic, molecular, and optical physics . 2011,第4aPta2期

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2. Signatures of nonclassicality in mixed-state quantum computation [J] . Datta A, Gharibian S Physical Review, A. Atomic, molecular, and optical physics . 2009,第4aPta1期

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3. Parameter estimation with mixed-state quantum computation [J] . Boixo S, Somma RD Physical Review, A. Atomic, molecular, and optical physics . 2008,第5aPta1期

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4. On the hardness of distinguishing mixed-state quantum computations [C] . Bill Rosgen, John Watrous IEEE Annual Conference on Computational Complexity . 2005

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7. On the hardness of distinguishing mixed-state quantum computations [O] . Bill Rosgen, John Watrous 2005

机译：关于区分混合态量子计算的硬度

On the hardness of distinguishing mixed-state quantum computations

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