Numerical simulation data for quantum droplet formation in a Bose Einstein Condensate.

The datasets were used to produce the figures in the paper "Universal scaling law for quantum droplet formation" arXiv:2504.21641 (See README file). Paper abstract:

Given the right set of circumstances, ultracold quantum gases are able to change character and condense into a liquid state of quantum droplets. The size distribution of the droplets is determined dynamically in the condensation process. A semi-quantitative argument is presented which suggests that, at zero temperature, a multiple droplet system has is a preferred scale $\propto v^{-d}$, with $d\approx 0.5$, where $v$ is the rate of change of parameters at the time of droplet formation. Numerical simulations of two dimensional systems strongly supporta power law, but with an exponent $d\in(0.3,0.4)$.