Communication Dans Un Congrès Année : 2026

Superradiance and static Bell tests in pilot-wave hydrodynamics

Résumé

Since its discovery in 2005, the hydrodynamic pilot-wave system has emerged as a classical platform for exploring aspects of wave–particle duality. In these systems, bouncing droplets or droplets emitted from hydrodynamic cavities propagate on a vertically vibrating fluid bath. These droplets, guided by their self-generated wave fields, continue to provide a macroscopic setting in which several features commonly associated with quantum theory may be examined from a classical perspective. Recent work has extended this program beyond single-particle analogies toward cooperative emission, bipartite tunneling, and static Bell-type correlation functions, with particular emphasis on the roles of memory, wave-mediated coupling, and contextuality.

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hal-05601048 , version 1 (27-04-2026)

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  • HAL Id : hal-05601048 , version 1

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Konstantinos Papatryfonos, Louis Vervoort, Mélanie Ruelle, Corentin Bourdiol, André Nachbin, et al.. Superradiance and static Bell tests in pilot-wave hydrodynamics. Quantum Information and Probability: from Foundations to Engineering (QIP26), Andrei Khrennikov and Linnaeus University, Jun 2026, Vaxjo, Sweden. ⟨hal-05601048⟩
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