## GPELab reference papers

If you use GPELab please cite the following reference in your work (books, articles, reports, etc.):

X. Antoine and R. Duboscq, GPELab, a Matlab Toolbox to Solve Gross-Pitaevskii Equations I: Computation of Stationary Solutions, Computer Physics Communications 185 (11), (2014), pp. 2969-2991.

X. Antoine and R. Duboscq, GPELab, a Matlab Toolbox to Solve Gross-Pitaevskii Equations II: Dynamics and Stochastic Simulations, Computer Physics Communications 193, (2015), pp. 95-117.

## Other related publications

You can also cite additional references for specific features and algorithms:

X. Antoine and R. Duboscq, Robust and Efficient Preconditioned Krylov Spectral Solvers for Computing the Ground States of Fast Rotating and Strongly Interacting Bose-Einstein Condensates, Journal of Computational Physics, 258 (1) (2014), pp. 509-523.

X. Antoine and R. Duboscq, Modeling and Computation of Bose-Einstein Condensates: Stationary States, Nucleation, Dynamics, Stochasticity, in Nonlinear Optical and Atomic Systems: at the Interface of Mathematics and Physics, Lecture Notes in Mathematics, 2146, pp. 49-145, Springer.

X. Antoine, W. Bao and C. Besse, Computational Methods for the Dynamics of the Nonlinear Schrödinger/Gross-Pitaevskii Equations, (A Feature Article) Computer Physics Communications 184 (12), (2013), pp.2621-2633.