Python implementation of an ODE solver to simulate the loading of atoms into a combined magnetic and optical dipole trap. Their potential minima are shifted in space with respect to each other, as proposed in Y. J. Lin et al., Physical Review A 79, 063631 (2009).
Cite as Florian Störtz, Design of a Hybrid Trapping Scheme for an Optical Kagome Lattice Experiment. Master's thesis, University of Cambridge (2018). Analytic expressions based on Max Melchner, An optical dipole trap for ultracold atomic gases. Master's thesis, ETH Zurich (2017).