Stephen Whitelam

Identifiers

• name variant Stephen Whitelam 0.60 · backfill

Papers (49)

1. Multi-point nonequilibrium umbrella sampling and associated fluctuation relations cond-mat.stat-mech · 2018 · author #1
2. Cooperative gas adsorption without a phase transition in metal-organic frameworks cond-mat.mtrl-sci · 2017 · author #6
3. Large deviations in the presence of cooperativity and slow dynamics cond-mat.stat-mech · 2017 · author #1
4. Sampling rare fluctuations of discrete-time Markov chains cond-mat.stat-mech · 2017 · author #1
5. Phase separation and large deviations of lattice active matter cond-mat.stat-mech · 2017 · author #1
6. Strong bonds and far-from-equilibrium conditions minimize errors in lattice-gas growth cond-mat.stat-mech · 2017 · author #1
7. Irregular model DNA particles self-assemble into a regular structure cond-mat.stat-mech · 2017 · author #3
8. Rare behavior of growth processes via umbrella sampling of trajectories cond-mat.stat-mech · 2017 · author #4
9. Minimal positive design for self-assembly of the Archimedean tilings cond-mat.stat-mech · 2016 · author #1
10. Selective gas capture via kinetic trapping physics.chem-ph · 2016 · author #4
11. Similarity of ensembles of trajectories of reversible and irreversible growth processes cond-mat.stat-mech · 2016 · author #3
12. On the microscopic origin and macroscopic implications of lane formation in mixtures of oppositely-driven particles cond-mat.stat-mech · 2016 · author #3
13. The Ramachandran number: an order parameter for protein geometry q-bio.BM · 2015 · author #3
14. Minimal physical requirements for crystal growth self-poisoning cond-mat.stat-mech · 2015 · author #1
15. Crystallization and arrest mechanisms of model colloids cond-mat.soft · 2015 · author #3
16. Predicting the outcome of the growth of binary solids far from equilibrium cond-mat.soft · 2015 · author #2
17. Hierarchical assembly may be a way to make large information-rich structures physics.bio-ph · 2015 · author #1
18. Examples of molecular self-assembly at surfaces cond-mat.stat-mech · 2014 · author #1
19. Emergent rhombus tilings from molecular interactions with $M$-fold rotational symmetry cond-mat.stat-mech · 2014 · author #1
20. Modeling sequence-specific polymers using anisotropic coarse-grained sites allows quantitative comparison with experiment physics.bio-ph · 2014 · author #4
21. The Statistical Mechanics of Dynamic Pathways to Self-assembly cond-mat.stat-mech · 2014 · author #1
22. Growth of equilibrium structures built from a large number of distinct component types cond-mat.soft · 2014 · author #3
23. Competing thermodynamic and dynamic factors select molecular assemblies on a gold surface cond-mat.mes-hall · 2013 · author #8
24. Common physical framework explains phase behavior and dynamics of atomic, molecular and polymeric network-formers cond-mat.stat-mech · 2013 · author #1
25. Self-assembly at a nonequilibrium critical point cond-mat.stat-mech · 2013 · author #1
26. Selective nucleation in porous media cond-mat.soft · 2013 · author #2
27. Do hierarchical structures assemble best via hierarchical pathways? cond-mat.soft · 2012 · author #2
28. Patterning a surface so as to speed nucleation from solution cond-mat.stat-mech · 2012 · author #2
29. Self-assembly of multicomponent structures in and out of equilibrium cond-mat.stat-mech · 2012 · author #1
30. Design rules for the self-assembly of a protein crystal cond-mat.soft · 2011 · author #2
31. Random and ordered phases of off-lattice rhombus tiles cond-mat.stat-mech · 2011 · author #1
32. Analyzing mechanisms and microscopic reversibility of self-assembly cond-mat.soft · 2011 · author #3
33. Limit of validity of Ostwald's rule of stages in a statistical mechanical model of crystallization cond-mat.stat-mech · 2011 · author #2
34. Approximating the dynamical evolution of systems of strongly-interacting overdamped particles cond-mat.stat-mech · 2010 · author #1
35. Control of pathways and yields of protein crystallization through the interplay of nonspecific and specific attractions cond-mat.soft · 2010 · author #1
36. Electrostatics and aggregation: how charge can turn a crystal into a gel cond-mat.soft · 2010 · author #2
37. Microscopic implications of S-DNA cond-mat.soft · 2010 · author #1
38. Nonclassical assembly pathways of anisotropic particles cond-mat.stat-mech · 2009 · author #1
39. Self-assembly of amphiphilic peanut-shaped nanoparticles cond-mat.soft · 2009 · author #1
40. Transformation from spots to waves in a model of actin pattern formation q-bio.SC · 2008 · author #1
41. The role of collective motion in examples of coarsening and self-assembly cond-mat.stat-mech · 2008 · author #1
42. Stretching chimeric DNA: a test for the putative S-form cond-mat.stat-mech · 2008 · author #1
43. There and (slowly) back again: Entropy-driven hysteresis in a model of DNA overstretching cond-mat.stat-mech · 2006 · author #1
44. Avoiding unphysical kinetic traps in Monte Carlo simulations of strongly attractive particles cond-mat.stat-mech · 2005 · author #1
45. Two-stage coarsening mechanism in a kinetically constrained model of an attractive colloid cond-mat.stat-mech · 2005 · author #1
46. Renormalization group study of a kinetically constrained model for strong glasses cond-mat.stat-mech · 2004 · author #1
47. Facilitated spin models in one dimension: a real-space renormalization group study cond-mat.stat-mech · 2004 · author #1
48. Geometrical picture of dynamical facilitation cond-mat.stat-mech · 2004 · author #1
49. Dynamic criticality in glass-forming liquids cond-mat.soft · 2003 · author #1

Mentions

• 1412.2097 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1411.3644 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1409.8644 #4 · backfill · confidence 0.70 Stephen Whitelam
• 1407.2505 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1405.2145 #3 · backfill · confidence 0.70 Stephen Whitelam
• 1311.7417 #8 · backfill · confidence 0.70 Stephen Whitelam
• 1311.2877 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1310.7908 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1307.4428 #2 · backfill · confidence 0.70 Stephen Whitelam
• 1211.3763 #2 · backfill · confidence 0.70 Stephen Whitelam
• 1205.0583 #2 · backfill · confidence 0.70 Stephen Whitelam
• 1204.3932 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1110.5610 #2 · backfill · confidence 0.70 Stephen Whitelam
• 1109.1450 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1108.4542 #3 · backfill · confidence 0.70 Stephen Whitelam
• 1103.0334 #2 · backfill · confidence 0.70 Stephen Whitelam
• 1009.2008 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1008.1101 #1 · backfill · confidence 0.70 Stephen Whitelam
• 1007.5345 #2 · backfill · confidence 0.70 Stephen Whitelam
• 1002.2169 #1 · backfill · confidence 0.70 Stephen Whitelam
• 0912.2066 #1 · backfill · confidence 0.70 Stephen Whitelam
• 0907.3227 #1 · backfill · confidence 0.70 Stephen Whitelam
• 0812.2066 #1 · backfill · confidence 0.70 Stephen Whitelam
• 0806.3903 #1 · backfill · confidence 0.70 Stephen Whitelam
• 0806.0505 #1 · backfill · confidence 0.70 Stephen Whitelam

Frequent Coauthors

• Juan P. Garrahan 9 shared papers
• Phillip L. Geissler 8 shared papers
• Lester O. Hedges 6 shared papers
• Thomas K. Haxton 6 shared papers
• Isaac Tamblyn 4 shared papers
• Katherine Klymko 4 shared papers
• Ranjan V. Mannige 4 shared papers
• Joyjit Kundu 3 shared papers
• Peter H. Beton 3 shared papers
• Sander Pronk 3 shared papers
• David Prendergast 2 shared papers
• Jeffrey B. Neaton 2 shared papers
• Jeremy D. Schmit 2 shared papers
• Ludovic Berthier 2 shared papers
• Robert L. Jack 2 shared papers
• Barbara Sacca 1 shared papers
• Daejin Eom 1 shared papers
• Dibyendu Mandal 1 shared papers
• Edward H. Feng 1 shared papers
• Hui Zhou 1 shared papers