READ ME This text describes the data presented in the paper: Ultra-quantum turbulence in a quenched homogeneous Bose gas ======================== Introductory information ======================== Files included in the data deposit: 1) Figure1.mat - MATLAB data file containing the numerical value of the quasi-condensate classical field as it decays to equilibrium, with an equilibrium condensate fraction of \rho_0/\rho = 0.22. Snapshots of 4 time points are included: t/\tau=0, 250, 1250, and 2500. 2) Figure2(upper).csv - CSV file containing the data used to produce Figure 2 (Upper). This includes the occupation numbers n_k, and integral distribution F_k, over wavenumbers k\xi. 3) Figure2(lower).csv - CSV file containing the data used to produce Figure 2 (Lower). This includes the condensate fraction \rho_0/\rho for each set of initial conditions over time, with k_c = 10 (2\pi/D) and 20 (2\pi/D). 4) Figure3.csv - CSV file containing the data used to produce Figure 3. This file includes the Incompressible kinetic energy spectrum, \hat{E}^i_kin/\mu, of the quasi-condensate for different temperatures, with k_c = 10 (2\pi/D) and 20 (2\pi/D). 5) Figure4.csv - CSV file containing the data used to produce Figure 4. This file includes the vortex line density L\xi^2 for each set of initial conditions over time, with k_c = 10 (2\pi/D) and 20 (2\pi/D). 6) Figure5.csv - CSV file containing the data used to produce Figure 5. This file includes the integral scale I/\xi for each set of initial conditions over time. Also included is the velocity correlation function f(r,t) at time t/\tau=300 for each set of initial conditions. Key words used to describe the data: Bose gas, Bose-Einstein condensate, Quench, Quantum turbulence, Ultraquantum turbulence, Vinen turbulence ========================== Methodological information ========================== The data set corresponds to the figures in the associated publication, which were the results of numerical simulations. Data for each of the figures are clearly labelled. Full details of how the data was generated are given in the associated publication. ======= Contact ======= Please contact rdm@ncl.ac.uk for further information