Related papers: Phases and dynamics of few fermionic impurities immersed in two-dimensional boson droplets

Phases and dynamics of few fermionic impurities immersed in two-dimensional boson droplets

URL: http://arxiv.org/abs/2405.12466v1
Date: Tue, 21 May 2024 02:42:19 GMT
Title: Phases and dynamics of few fermionic impurities immersed in two-dimensional boson droplets
Authors: Jose Carlos Pelayo, Thomás Fogarty, Thomas Busch, Simeon I. Mistakidis,
Abstract summary: We find a transition from a spatially delocalized fermion configuration to a state where the fermions are highly localized and isolated. For increasing attractive droplet-fermion coupling, undulations in the droplet density occur in the vicinity of the fermions manifesting the back-action of the latter.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We unravel the ground state properties and emergent non-equilibrium dynamics of a mixture consisting of a few spin-polarized fermions embedded in a two-dimensional bosonic quantum droplet. For an increasingly attractive droplet-fermion interaction we find a transition from a spatially delocalized fermion configuration to a state where the fermions are highly localized and isolated. This process is accompanied by the rise of induced fermion-fermion interactions mediated by the droplet. Additionally, for increasing attractive droplet-fermion coupling, undulations in the droplet density occur in the vicinity of the fermions manifesting the back-action of the latter. Following interaction quenches from strong attractive to weaker droplet-fermion couplings reveals the spontaneous nucleation of complex excitation patterns in the fermion density such as ring and cross shaped structures. These stem from the enhanced interference of the fermions that remain trapped within the droplet, which emulates, to a good degree, an effective potential for the fermions. The non-negligible back-action of the droplet manifests itself in the fact that the effective potential predictions are less accurate at the level of the many-body wave function. Our results provide a paradigm for physics beyond the reduced single-component droplet model, unveiling the role of back-action in droplets and the effect of induced mediated interactions.

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