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Thomas Wuest
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Generic, Hierarchical Framework for Massively Parallel Wang-Landau Sampling
T Vogel, YW Li, T Wüst, DP Landau
Physical review letters 110 (21), 210603, 2013
1802013
Versatile approach to access the low temperature thermodynamics of lattice polymers and proteins
T Wüst, DP Landau
Physical review letters 102 (17), 178101, 2009
1162009
Collapse transitions in a flexible homopolymer chain: Application of the Wang-Landau algorithm
DT Seaton, T Wüst, DP Landau
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 81 (1 …, 2010
1122010
Scalable replica-exchange framework for Wang-Landau sampling
T Vogel, YW Li, T Wüst, DP Landau
Physical Review E 90 (2), 023302, 2014
992014
Optimized Wang-Landau sampling of lattice polymers: Ground state search and folding thermodynamics of HP model proteins
T Wüst, DP Landau
The Journal of chemical physics 137 (6), 2012
712012
The HP model of protein folding: A challenging testing ground for Wang–Landau sampling
T Wüst, DP Landau
Computer Physics Communications 179 (1), 124-127, 2008
632008
Generic folding and transition hierarchies for surface adsorption of hydrophobic-polar lattice model proteins
YW Li, T Wüst, DP Landau
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 87 (1 …, 2013
492013
Unraveling the beautiful complexity of simple lattice model polymers and proteins using Wang-Landau sampling
T Wüst, YW Li, DP Landau
Journal of Statistical Physics 144 (3), 638-651, 2011
492011
Sequence Determines Degree of Knottedness in a Coarse-Grained Protein Model
T Wüst, D Reith, P Virnau
Physical Review Letters 114 (2), 028102, 2015
472015
A new paradigm for petascale Monte Carlo simulation: Replica exchange Wang-Landau sampling
YW Li, T Vogel, T Wüst, DP Landau
Journal of Physics: Conference Series 510 (1), 012012, 2014
422014
Monte Carlo simulations of the HP model (the “Ising model” of protein folding)
YW Li, T Wüst, DP Landau
Computer physics communications 182 (9), 1896-1899, 2011
382011
NGS-pipe: a flexible, easily extendable and highly configurable framework for NGS analysis
J Singer, HJ Ruscheweyh, AL Hofmann, T Thurnherr, F Singer, ...
Bioinformatics 34 (1), 107-108, 2018
352018
A Wang–Landau study of the phase transitions in a flexible homopolymer
DT Seaton, T Wüst, DP Landau
Computer Physics Communications 180 (4), 587-589, 2009
352009
Alignment of radicals into chains by a Markov mechanism for polarity formation
HI Süss, T Wuest, A Sieber, R Althaus, F Budde, HP Lüthi, GD McManus, ...
CrystEngComm 4 (72), 432-439, 2002
322002
Effect of single-site mutations on hydrophobic-polar lattice proteins
G Shi, T Vogel, T Wüst, YW Li, DP Landau
Physical Review E 90 (3), 033307, 2014
282014
Application of the Wang–Landau algorithm to the dimerization of glycophorin A
C Gervais, T Wüst, DP Landau, Y Xu
The Journal of chemical physics 130 (21), 215106, 2009
282009
Numerical integration using Wang–Landau sampling
YW Li, T Wüst, DP Landau, HQ Lin
Computer physics communications 177 (6), 524-529, 2007
242007
Exploring new frontiers in statistical physics with a new, parallel Wang-Landau framework
T Vogel, YW Li, T Wüst, DP Landau
Journal of Physics: Conference Series 487 (1), 012001, 2014
232014
Prediction of growth-induced polarity in centrosymmetric molecular crystals using force field methods
C Gervais, T Wüst, NR Behrnd, M Wübbenhorst, J Hulliger
Chemistry of materials 17 (1), 85-94, 2005
182005
Can Mono Domain Polar Molecular Crystals Exist?
J Hulliger, T Wüst, K Brahimi, JC Martinez Garcia
Crystal Growth & Design 12 (11), 5211-5218, 2012
172012
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