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Barkema, G. T., Mousseau, N., Vink, R. L. C., & Biswas, P. (avril 2001). Basic mechanisms of structural relaxation and diffusion in amorphous silicon [Communication écrite]. Symposium A: Amorphous and Heterogeneous Silicon-Based Films, San Francisco, Calif. (11 pages). Lien externe
Jain, S., Barkema, G. T., Mousseau, N., Fan, C.-M., & van Huis, M. (2015). Strong Long-Range Relaxations of Structural Defects in Graphene Simulated Using a New Semiempirical Potential. Journal of Physical Chemistry C, 119(17), 9646-9655. Lien externe
Malek, R., Mousseau, N., & Barkema, G. T. (avril 2001). Characterization of the Activation-Relaxation Technique : Recent Results on Models of Amorphous Silicon [Communication écrite]. Symposium AA: Advances in Materials Theory and Modeling-Bridging Over Multiple-Length and Time Scales, San Francisco, Calif.. Lien externe
Mousseau, N., & Barkema, G. T. (1999). Exploring High‐Dimensional Energy Landscapes. Computing in Science & Engineering, 1(2), 74-82. Lien externe
Mousseau, N., & Barkema, G. T. (décembre 1997). Traveling through energy landscapes: the activation-relaxation technique [Communication écrite]. Workshop on Monte Carlo Approach to Biopolymers and Protein Folding, Jülich, Germany. Non disponible
