Megastable quantization in generalized pilot-wave hydrodynamics

• URL: http://arxiv.org/abs/2410.12849v2
• Date: Fri, 18 Oct 2024 07:59:56 GMT
• Title: Megastable quantization in generalized pilot-wave hydrodynamics
• Authors: Álvaro G. López, Rahil N. Valani,
• Abstract summary: A classical particle in a harmonic potential gives rise to a continuous energy spectra, whereas the corresponding quantum particle exhibits countably infinite quantized energy levels. In recent years, classical non-Markovian wave-particle entities that materialize as walking droplets, have been shown to exhibit various hydrodynamic quantum analogs.
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• Abstract: A classical particle in a harmonic potential gives rise to a continuous energy spectra, whereas the corresponding quantum particle exhibits countably infinite quantized energy levels. In recent years, classical non-Markovian wave-particle entities that materialize as walking droplets, have been shown to exhibit various hydrodynamic quantum analogs, including quantization in a harmonic potential via limit cycle orbits. However, the number of co-existing quantized states are limited to at most a few limit cycles. By considering a minimal generalized pilot-wave model of the system in the low-memory and low-dissipation regime, we obtain a classical harmonic oscillator perturbed by an oscillatory non-conservative force that displays a countably infinite coexisting limit-cycle states, also know as \emph{megastability}; thus forming a dynamical analog of infinite quantized states. Using averaging techniques, we derive an analytical approximation of the orbital radii, orbital frequency and Lyapunov energy function, of this megastable spectrum, and further show average energy conservation along these quantized states. Our formalism extends to a general class of self-excited oscillators and can be used to construct megastable spectrum with different energy-frequency relations.

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