Thouless pumping in a driven-dissipative Kerr resonator array - Archive ouverte HAL
Pré-Publication, Document De Travail Année : 2024

Thouless pumping in a driven-dissipative Kerr resonator array

Résumé

Thouless pumping is an emblematic manifestation of topology in physics, referring to the ability to induce a quantized transport of charge across a system by simply varying one of its parameters periodically in time. The original concept of Thouless pumping involves a non-interacting system, and has been implemented in several platforms. One current challenge in the field is to extend this concept to interacting systems. In this article, we propose a Thouless pump that solely relies on nonlinear physics, within a chain of coupled Kerr resonators. Leveraging the driven-dissipative nature of the system, we modulate in space and time the onsite Kerr interaction energies, and generate 1+1-dimensional topological bands in the Bogoliubov spectrum of excitations. These bands present the same topology as the ones obtained within the Harper-Hofstadter framework, and the Wannier states associated to each band experience a net displacement and show quantized transport according to the bands Chern numbers. Remarkably, we find driving configurations leading to band inversion, revealing an interaction-induced topological transition. Our numerical simulations are performed using realistic parameters inspired from exciton polaritons, which form a platform of choice for investigating driven topological phases of matter.
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Dates et versions

hal-04762450 , version 1 (31-10-2024)

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Sylvain Ravets, N. Pernet, N. Mostaan, N. Goldman, J. Bloch. Thouless pumping in a driven-dissipative Kerr resonator array. 2024. ⟨hal-04762450⟩
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