Self-evaporation dynamics of quantum droplets in a 41K-87Rb mixture
Chiara Fort, Michele Modugno
TL;DR
This paper theoretically studies the formation and self-evaporation dynamics of quantum droplets in a 41K-87Rb mixture, highlighting conditions for experimental observation and effects of three-body losses.
Contribution
It introduces a theoretical model for droplet self-evaporation dynamics in a specific atomic mixture, including effects of three-body losses and feasible experimental parameters.
Findings
Identification of parameter regimes for observable self-evaporation
Numerical simulation of droplet formation and evaporation
Analysis of three-body loss effects on droplet stability
Abstract
We theoretically investigate the self-evaporation dynamics of quantum droplets in a 41K-87Rb mixture, in free-space. The dynamical formation of the droplet and the effects related to the presence of three-body losses are analyzed by means of numerical simulations. We identify a regime of parameters allowing for the observation of the droplet self-evaporation in a feasible experimental setup.
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