Preliminary studies of temperature excitations of Bose-Fermi droplets

We numerically study the formation of Bose-Fermi droplets at nonzero temperatures.

The dynamics of atomic mixture is described in terms of quantum hydrodynamics enriched by thermal fluctuations.

The strategy is then as follows: first, by changing the boson-fermion attraction,

we find localized solutions for the Bose-Fermi mixture in a spherically symmetric trap.

Next, we pump energy into the system by introducing fluctuations into the bosonic and fermionic fields.

Additional energy results, after thermalization, in the increase of temperature of the system.

Finally, we open a trap and follow the dynamics of the Bose-Fermi.