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

Zhiwei Song; Lin Chen; Mengyao Hu

doi:10.1007/s11128-021-03031-1

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

Zhiwei Song
, Lin Chen^*
, Mengyao Hu^*

^*Corresponding author for this work

School of Mathematical Sciences

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

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 three-qubit 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.

Original language	English
Article number	96
Journal	Quantum Information Processing
Volume	20
Issue number	3
DOIs	https://doi.org/10.1007/s11128-021-03031-1
State	Published - Mar 2021

Keywords

CNOT gate
Schmidt rank
Three-qubit unitary gate

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title = "Constructing three-qubit unitary gates in terms of Schmidt rank and CNOT gates",

abstract = "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 three-qubit 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.",

keywords = "CNOT gate, Schmidt rank, Three-qubit unitary gate",

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AU - Song, Zhiwei

AU - Chen, Lin

AU - Hu, Mengyao

PY - 2021/3

Y1 - 2021/3

N2 - 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 three-qubit 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.

AB - 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 three-qubit 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.

KW - CNOT gate

KW - Schmidt rank

KW - Three-qubit unitary gate

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DO - 10.1007/s11128-021-03031-1

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VL - 20

JO - Quantum Information Processing

JF - Quantum Information Processing

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ER -

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

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Keywords

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