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Explains the function of each of the files in this directory
1d_ho.py -- Solves the 1D quantum harmonic oscillator using a
spectral [Fourier split-step] method. Plots i) density |\psi|^2
sampled during imaginary time propagation, ii) comparison between
analytical and numerical solution, iii) realtime space-time
igt_2d_hpc.py -- Computes the ground state of a trapped, rotating
2D condensate. Here the rotation comprises a rigid as well as nonlinear
rotation. The numerical method is a basic finite difference method. The
code saves the output as a npz Python data file for later processing.
vortex_tracker.py -- Sorts the identical phase defects [vortices] present in a
2D wavefunction \psi(x,y) into the correct order as a function of time, t.
Looks for vortex at t = t + 1 with shortest distance from current vortex.
Produces (x,y,t) trajectory plot of the phase defects dynamics in the trap.
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