Publications of Karsten Kreis

Journal Article (8)

1.
Journal Article
Guzman, H. V.; Tretyakov, N.; Kobayashi, H.; Fogarty, A. C.; Kreis, K.; Krajniak, J.; Junghans, C.; Kremer, K.; Stühn, T.: ESPResSo++ 2.0: Advanced methods for multiscale molecular simulation. Computer Physics Communications 238, pp. 66 - 76 (2019)
2.
Journal Article
Kreis, K.; Kremer, K.; Potestio, R.; Tuckerman, M. E.: From classical to quantum and back: Hamiltonian adaptive resolution path integral, ring polymer, and centroid molecular dynamics. The Journal of Chemical Physics 147 (24), 244104 (2017)
3.
Journal Article
Kreis, K.; Potestio, R.: The relative entropy is fundamental to adaptive resolution simulations. The Journal of Chemical Physics 145 (4), 044104 (2016)
4.
Journal Article
Kreis, K.; Potestio, R.; Kremer, K.; Fogarty, A. C.: Adaptive Resolution Simulations with Self-Adjusting High-Resolution Regions. Journal of Chemical Theory and Computation 12 (8), pp. 4067 - 4081 (2016)
5.
Journal Article
Kreis, K.; Tuckerman, M. E.; Donadio, D.; Kremer, K.; Potestio, R.: From Classical to Quantum and Back: A Hamiltonian Scheme for Adaptive Multiresolution Classical/Path-Integral Simulations. Journal of Chemical Theory and Computation 12 (7), pp. 3030 - 3039 (2016)
6.
Journal Article
Kreis, K.; Fogarty, A. C.; Kremer, K.; Potestio, R.: Reply to comments by R. Klein on Advantages and challenges in coupling an ideal gas to atomistic models in adaptive resolution simulations. European Physical Journal 224 (12), pp. 2505 - 2506 (2015)
7.
Journal Article
Kreis, K.; Fogarty, A. C.; Kremer, K.; Potestio, R.: Advantages and challenges in coupling an ideal gas to atomistic models in adaptive resolution simulations. European Physical Journal 224 (12), pp. 2289 - 2304 (2015)
8.
Journal Article
Kreis, K.; Donadio, D.; Kremer, K.; Potestio, R.: A unified framework for force-based and energy-based adaptive resolution simulations. EPL 108 (3), 30007 (2014)

Thesis - PhD (1)

9.
Thesis - PhD
Kreis, K.: Advanced adaptive resolution methods for molecular simulation. Dissertation, Johannes Gutenberg-Universität, Mainz (2017)
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