Related papers: Dynamics of equilibration and collisions in ultradilute quantum droplets

Dynamics of equilibration and collisions in ultradilute quantum droplets

URL: http://arxiv.org/abs/2104.09102v1
Date: Mon, 19 Apr 2021 07:48:50 GMT
Title: Dynamics of equilibration and collisions in ultradilute quantum droplets
Authors: Viktor Cikojevi\'c, Leandra Vranje\v{s} Marki\'c, Mart\'i Pi, Manuel Barranco, Francesco Ancilotto, Jordi Boronat
Abstract summary: We study the equilibration and binary head-on collisions of quantum droplets made of a $39$K-$39$K Bose mixture. We exhaustively explored the important effect -- not considered in previous studies -- of the initial population ratio.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Employing time-dependent density-functional theory, we have studied dynamical equilibration and binary head-on collisions of quantum droplets made of a $^{39}$K-$^{39}$K Bose mixture. The phase space of collision outcomes is extensively explored by performing fully three-dimensional calculations with effective single-component QMC based and two-components LHY-corrected mean-field functionals. We exhaustively explored the important effect -- not considered in previous studies -- of the initial population ratio deviating from the optimal mean-field value $N_2/N_1 = \sqrt{a_{11} / a_{22}}$. Both stationary and dynamical calculations with an initial non-optimal concentration ratio display good agreement with experiments. Calculations including three-body losses acting only on the $\left|F, m_{F}\right\rangle=|1,0\rangle$ state show dramatic differences with those obtained with the three-body term acting on the total density.

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