Amortissement des phonons dans un superfluide 2D : insuffisance de la règle d’or de Fermi à basse température

Amortissement des phonons dans un superfluide 2D : insuffisance de la règle d’or de Fermi à basse température

It is generally accepted that the phonon gas of a superfluid always enters a weak coupling regime at sufficiently low temperatures, whatever the strength of the interactions between the underlying particles (constitutive of the superfluid). Thus, in this limit, we should always be able to calculate...

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Bibliographic Details
Main Authors: Castin, Yvan, Serafin, Alan, Sinatra, Alice
Format: Article
Language:English
Published: Académie des sciences 2024-02-01
Series:Comptes Rendus. Physique
Subjects:
gaz de bosons
superfluide bidimensionnel
gaz d’atomes froids
amortissement Belyaev–Landau des phonons
fonctions de Green à N corps
hydrodynamique quantique
Online Access:https://comptes-rendus.academie-sciences.fr/physique/articles/10.5802/crphys.169/
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Summary:It is generally accepted that the phonon gas of a superfluid always enters a weak coupling regime at sufficiently low temperatures, whatever the strength of the interactions between the underlying particles (constitutive of the superfluid). Thus, in this limit, we should always be able to calculate the damping rate of thermal phonons by applying Fermi’s golden rule to the Hamiltonian H3 of cubic phonon-phonon coupling taken from quantum hydrodynamics, at least in the case of a convex acoustic branch and in the collisionless regime (where the eigenfrequency of the considered phonons remains much greater than the gas thermalization rate). Using the many-body Green’s function method, we predict that, unexpectedly, this is not true in two dimensions, contrary to the three-dimensional case. We confirm this prediction with classical phonon-field simulations and a non-perturbative theory in H3, where the fourth order is regularized by hand, giving a complex energy to the virtual phonons of the four-phonon collisional processes. For a weakly interacting fluid and a phonon mode in the long-wavelength limit, we predict a damping rate about three times lower than that of the golden rule. A multilingual version is available in separate files on the open archive HAL at https://hal.science/hal-04168815.
ISSN:1878-1535

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