Mengyao Hu scite author profile

A set of multipartite orthogonal product states is locally irreducible, if it is not possible to eliminate one or more states from the set by orthogonality-preserving local measurements. An effective way to prove that a set is locally irreducible is to show that only trivial orthogonality-preserving local measurement can be performed to this set. In general, it is difficult to show that such an orthogonality-preserving local measurement must be trivial. In this work, we develop two basic techniques to deal with this problem. Using these techniques, we successfully show the existence of unextendible product bases (UPBs) that are locally irreducible in every bipartition in d⊗d⊗d for any d≥3, and 3⊗3⊗3 achieves the minimum dimension for the existence of such UPBs. These UPBs exhibit the phenomenon of strong quantum nonlocality without entanglement. Our result solves an open question given by Halder et al. [Phys. Rev. Lett. 122, 040403 (2019)] and Yuan et al. [Phys. Rev. A 102, 042228 (2020)]. It also sheds new light on the connections between UPBs and strong quantum nonlocality.

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Multilinear monogamy relations for multiqubit states

Shi

Chen²,

Hu³

2021

Phys. Rev. A

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The $$H_2$$-reducible matrix in four six-dimensional mutually unbiased bases

Liang

Chen

et al. 2019

Quantum Inf Process

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Constructing three-qubit unitary gates in terms of Schmidt rank and CNOT gates

Song

Chen

2021

Quantum Inf Process

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It is known that every two-qubit unitary operation has Schmidt rank one, two or four, and the construction of three-qubit unitary gates in terms of Schmidt rank remains an open problem. We explicitly construct the gates of Schmidt rank from one to seven. It turns out that the threequbit Toffoli and Fredkin gate respectively have Schmidt rank two and four. As an application, we implement the gates using quantum circuits of CNOT gates and local Hadamard and flip gates. In particular, the collective use of three CNOT gates can generate a three-qubit unitary gate of Schmidt rank seven in terms of the known Strassen tensor from multiplicative complexity. Our results imply the connection between the number of CNOT gates for implementing multiqubit gates and their Schmidt rank.

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Mengyao Hu

Strong quantum nonlocality with entanglement

Strongly nonlocal unextendible product bases do exist

Multilinear monogamy relations for multiqubit states

The $$H_2$$-reducible matrix in four six-dimensional mutually unbiased bases

Constructing three-qubit unitary gates in terms of Schmidt rank and CNOT gates

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