Unitary braiding operators can be used as robust entangling quantum gates. We introduce a solution-generating technique to solve the (d,m,l)-generalized Yang-Baxter equation, for m/2≤l≤m, which allows to systematically construct such braiding operators. This is achieved by using partition algebras, a generalization of the Temperley-Lieb algebra encountered in statistical mechanics. We obtain families of unitary and non-unitary braiding operators that generate the full braid group. Explicit examples are given for a 2-, 3-, and 4-qubit system, including the classification of the entangled states generated by these operators based on Stochastic Local Operations and Classical Communication.

Braiding quantum gates from partition algebras / Padmanabhan, P.; Sugino, F.; Trancanelli, D.. - In: QUANTUM. - ISSN 2521-327X. - 4:(2020), pp. 311-349. [10.22331/q-2020-08-27-311]

Braiding quantum gates from partition algebras

D. Trancanelli
2020

Abstract

Unitary braiding operators can be used as robust entangling quantum gates. We introduce a solution-generating technique to solve the (d,m,l)-generalized Yang-Baxter equation, for m/2≤l≤m, which allows to systematically construct such braiding operators. This is achieved by using partition algebras, a generalization of the Temperley-Lieb algebra encountered in statistical mechanics. We obtain families of unitary and non-unitary braiding operators that generate the full braid group. Explicit examples are given for a 2-, 3-, and 4-qubit system, including the classification of the entangled states generated by these operators based on Stochastic Local Operations and Classical Communication.
2020
QUANTUM
4
311
349
WOS:000563899900001
2-s2.0-85092071482
Braiding quantum gates from partition algebras / Padmanabhan, P.; Sugino, F.; Trancanelli, D.. - In: QUANTUM. - ISSN 2521-327X. - 4:(2020), pp. 311-349. [10.22331/q-2020-08-27-311]
Padmanabhan, P.; Sugino, F.; Trancanelli, D.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1197976
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