Continuous-time quantum walks for MAX-CUT are hot

Ahmad, Ibrahim; Ahsan, Hamza; Ali, Yahya; Arora, Mannan; Asad, Mateen; Azad, Nuh; Banks, Robert J.; Baranwal, Krish; Bhuyan, Shayam; Browne, Dan E.; Fedaiee, Salgai; Fethallah, Fatima; Haque, Ehsan; Hasan, Nabian; Hewins, Isaac; Khan, Mubasshirah; Majeed, Shakeel; Nazef, Farah; Ruqaya, Fatima; Shah, Ishaq; Tahir, Hibah; Tarannum, Tasfia; Vora, Het; Warburton, P. A.

Continuous-time quantum walks for MAX-CUT are hot

Abstract

By exploiting the link between time-independent Hamiltonians and thermalisation, heuristic predictions on the performance of continuous-time quantum walks for MAX-CUT are made. The resulting predictions depend on the number of triangles in the underlying MAX-CUT graph. We extend these results to the time-dependent setting with multi-stage quantum walks and Floquet systems. The approach followed here provides a novel way of understanding the role of unitary dynamics in tackling combinatorial optimisation problems with continuous-time quantum algorithms.Comment: 25 pages, 29 figure

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Last time updated on 22/06/2023