We study the equilibrium properties of self-bound droplets in two-dimensional Bose mixtures
employing the time-dependent Hartree–Fock–Bogoliubov theory. This theory allows one to …

We systematically study the effects of higher-order quantum and thermal fluctuations on the
stabilization of self-bound droplets in Bose mixtures employing the time-dependent Hartree …

The beyond mean-field physics due to quantum fluctuations is often described with the Lee-
Huang-Yang correction, which can be approximately written as a simple analytical …

We investigate analytically and numerically the Anderson localization of quasiparticles in
binary Bose mixtures in the presence of the Lee-Huang-Yang quantum and thermal …

We study the properties of self-bound liquid droplets of three-dimensional Bose mixtures in a
weak random potential with Gaussian correlation function at both zero and finite …

We investigate the effects of higher-order quantum fluctuations on the bulk properties of self-
bound droplets in three-, two-and one-dimensional binary Bose mixtures using the Hartree …

We formulate a generalized self-consistent quantum kinetic theory including thermal
fluctuations and stochastic contributions for modelling ultracold Bose gases interacting via a …

We investigate the ground-state properties and the dynamics of quasi-one-dimensional
quantum droplets of binary Bose condensates by employing the Gaussian state theory. We …

We present a quantum-Monte-Carlo–based density functional to describe droplet formation
and supersolidity in dipolar systems. The usual Lee-Huang-Yang term, accounting for …

We systematically investigate the effects of quantum gravity on the ground-state properties of
dilute homogeneous dipolar Bose gases using the Hartree-Fock-Bogoliubov theory based …