Signatures of associative memory behavior in a multi-mode spin-boson model

• URL: http://arxiv.org/abs/2003.01004v1
• Date: Mon, 2 Mar 2020 16:34:02 GMT
• Title: Signatures of associative memory behavior in a multi-mode spin-boson model
• Authors: Eliana Fiorelli, Matteo Marcuzzi, Pietro Rotondo, Federico Carollo, and Igor Lesanovsky
• Abstract summary: We show that non-equilibrium strongly interacting spin-boson systems can mimic some fundamental properties of an associative memory. We identify two phases, a "paramagnetic" and a "ferromagnetic" one, and a crossover behavior between these regimes. We highlight similarities and differences with the thermal dynamics of a Hopfield associative memory and show that indeed elements of "machine learning behavior" emerge in strongly coupled spin-boson systems.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Spin-boson models can describe a variety of physical systems, such as atoms in a cavity or vibrating ion chains. In equilibrium these systems often feature a radical change in their behavior when switching from weak to strong spin-boson interaction. This usually manifests in a transition from a "dark" to a "superradiant" phase. However, understanding the out-of-equilibrium physics of these models is extremely challenging, and even more so for strong spin-boson coupling. Here we show that non-equilibrium strongly interacting spin-boson systems can mimic some fundamental properties of an associative memory - a system which permits the recognition of patterns, such as letters of an alphabet. Patterns are encoded in the couplings between spins and bosons, and we discuss the dynamics of the spins from the perspective of pattern retrieval in associative memory models. We identify two phases, a "paramagnetic" and a "ferromagnetic" one, and a crossover behavior between these regimes. The "ferromagnetic" phase is reminiscent of pattern retrieval. We highlight similarities and differences with the thermal dynamics of a Hopfield associative memory and show that indeed elements of "machine learning behavior" emerge in strongly coupled spin-boson systems.

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