Related papers: Toffoli gates solve the tetrahedron equations

Toffoli gates solve the tetrahedron equations

URL: http://arxiv.org/abs/2405.16477v1
Date: Sun, 26 May 2024 08:03:24 GMT
Title: Toffoli gates solve the tetrahedron equations
Authors: Akash Sinha, Pramod Padmanabhan, Vladimir Korepin,
Abstract summary: In particular, factorised scattering operators result in integrable quantum circuits that provide universal quantum computation. A natural question is to extend this construction to higher qubit gates, like the Toffoli gates. We show that unitary families of such operators are constructed by the 3-dimensional generalizations of the Yang-Baxter operators.
Score: 1.8434042562191815
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: The circuit model of quantum computation can be interpreted as a scattering process. In particular, factorised scattering operators result in integrable quantum circuits that provide universal quantum computation and are potentially less noisy. These are realized through Yang-Baxter or 2-simplex operators. A natural question is to extend this construction to higher qubit gates, like the Toffoli gates, which also lead to universal quantum computation but with shallower circuits. We show that unitary families of such operators are constructed by the 3-dimensional generalizations of the Yang-Baxter operators known as tetrahedron or 3-simplex operators. The latter satisfy a spectral parameter-dependent tetrahedron equation. This construction goes through for $n$-Toffoli gates realized using $n$-simplex operators.

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