Showing below up to 100 results in range #1 to #100.

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1. (hist) ‎Michael Frank ‎[10,156 bytes]
2. (hist) ‎Sadasivan Shankar ‎[5,007 bytes]
3. (hist) ‎Karpur Shukla ‎[4,265 bytes]
4. (hist) ‎Thermodynamic Computing ‎[3,243 bytes]
5. (hist) ‎Terry Sejnowski ‎[2,521 bytes]
6. (hist) ‎Toward a Computational Theory of Life ‎[2,475 bytes]
7. (hist) ‎Vijay Balasubramanian ‎[2,287 bytes]
8. (hist) ‎John Rundle ‎[2,034 bytes]
9. (hist) ‎Wojciech H. Zurek ‎[1,937 bytes]
10. (hist) ‎Shamit Shrivastava ‎[1,774 bytes]
11. (hist) ‎Holographic Second Laws of Black Hole Thermodynamics ‎[1,745 bytes]
12. (hist) ‎Hong Qian ‎[1,728 bytes]
13. (hist) ‎Andy Adamatzky ‎[1,658 bytes]
14. (hist) ‎Paul Vitanyi ‎[1,632 bytes]
15. (hist) ‎James Crutchfield ‎[1,520 bytes]
16. (hist) ‎A cost/speed/reliability tradeoff to erasing ‎[1,409 bytes]
17. (hist) ‎Pier Luigi Gentili ‎[1,358 bytes]
18. (hist) ‎Thomas Ouldrige ‎[1,337 bytes]
19. (hist) ‎Irreversibility and Heat Generation in the Computing Process ‎[1,314 bytes]
20. (hist) ‎William Bialek ‎[1,292 bytes]
21. (hist) ‎Gašper Tkačik ‎[1,259 bytes]
22. (hist) ‎Simon Laughlin ‎[1,255 bytes]
23. (hist) ‎Marc Mézard ‎[1,253 bytes]
24. (hist) ‎A Cost / Speed / Reliability Trade-off in Erasing a Bit ‎[1,249 bytes]
25. (hist) ‎Postdoc in stochastic thermodynamics of molecular machines ‎[1,188 bytes]
26. (hist) ‎Ilya Nemenman ‎[1,169 bytes]
27. (hist) ‎Joshua A. Grochow ‎[1,166 bytes]
28. (hist) ‎Pieter Rein ten Wolde ‎[1,157 bytes]
29. (hist) ‎Information theory: a tutorial introduction (book) ‎[1,142 bytes]
30. (hist) ‎Florent Krzakala ‎[1,130 bytes]
31. (hist) ‎Postdoc position in information thermodynamics ‎[1,128 bytes]
32. (hist) ‎Principles of neural information theory ‎[1,111 bytes]
33. (hist) ‎Naftali Tishby ‎[1,081 bytes]
34. (hist) ‎Christopher Jarzynski ‎[1,022 bytes]
35. (hist) ‎Virginia Vassilevska Williams ‎[934 bytes]
36. (hist) ‎Riccardo Zecchina ‎[901 bytes]
37. (hist) ‎Manoj Gopalkrishnan ‎[885 bytes]
38. (hist) ‎Special Issue titled "The Fuzziness in Molecular, Supramolecular, and Systems Chemistry" of the journal Molecules (MDPI, IF=3.098) ‎[863 bytes]
39. (hist) ‎Chris Kempes ‎[824 bytes]
40. (hist) ‎Beilstein Bozen Symposium ‎[803 bytes]
41. (hist) ‎Postdoc position in Stochastic Thermodynamics ‎[797 bytes]
42. (hist) ‎Stochastic Thermodynamics: Experiment and Theory ‎[745 bytes]
43. (hist) ‎Untangling Complex Systems: A Grand Challenge for Science ‎[727 bytes]
44. (hist) ‎Gavin Crooks ‎[724 bytes]
45. (hist) ‎Takahiro Sagawa ‎[654 bytes]
46. (hist) ‎Anne Condon ‎[645 bytes]
47. (hist) ‎David Wolpert ‎[639 bytes]
48. (hist) ‎Blake Pollard ‎[625 bytes]
49. (hist) ‎Lenka Zdeborová ‎[608 bytes]
50. (hist) ‎Massimiliano Esposito ‎[600 bytes]
51. (hist) ‎Max Ent 2018 ‎[583 bytes]
52. (hist) ‎Zhiyue Lu ‎[580 bytes]
53. (hist) ‎Renaud Jolivet ‎[578 bytes]
54. (hist) ‎Udo Seifert ‎[563 bytes]
55. (hist) ‎Post-doc in thermodynamics and biology ‎[555 bytes]
56. (hist) ‎Cognitive Computing - Merging Concepts with Hardware ‎[555 bytes]
57. (hist) ‎Erik Winfree ‎[515 bytes]
58. (hist) ‎119th Statistical Mechanics Conference ‎[510 bytes]
59. (hist) ‎David Sivak ‎[503 bytes]
60. (hist) ‎Thermodynamics of Computation:Reference group/Allowed values ‎[471 bytes]
61. (hist) ‎Christian van den Broeck ‎[443 bytes]
62. (hist) ‎Postdoc position in DNA replication ‎[439 bytes]
63. (hist) ‎Entropy production along a stochastic trajectory and an integral fluctuation theorem ‎[399 bytes]
64. (hist) ‎Estimating equilibrium ensemble averages using multiple time slices from driven nonequilibrium processes: Theory and application to free energies, moments, and thermodynamic length in single-molecule pulling experiments ‎[389 bytes]
65. (hist) ‎Second law and Landauer principle far from equilibrium ‎[373 bytes]
66. (hist) ‎Entropy production fluctuation theorem and the nonequilibrium work relation for free energy differences ‎[373 bytes]
67. (hist) ‎Entropy 2018 ‎[372 bytes]
68. (hist) ‎Nonequilibrium generation of information in copolymerization processes. ‎[363 bytes]
69. (hist) ‎Stochastic thermodynamics, fluctuation theorems and molecular machines ‎[363 bytes]
70. (hist) ‎Experimental demonstration of information-to-energy conversion and validation of the generalized Jarzynski equality ‎[362 bytes]
71. (hist) ‎Nonlinear fluctuation-dissipation relations and stochastic models in nonequilibrium thermodynamics. II. Kinetic potential and variational principles for nonlinear irreversible processes ‎[355 bytes]
72. (hist) ‎Equalities and Inequalities: Irreversibility and the Second Law of Thermodynamics at the Nanoscale ‎[352 bytes]
73. (hist) ‎Peter Stadler ‎[349 bytes]
74. (hist) ‎A Gallavotti Cohen-Type Symmetry in the Large Deviation Functional for Stochastic Dynamics ‎[336 bytes]
75. (hist) ‎Santa Fe Institute Post-Doctoral ‎[335 bytes]
76. (hist) ‎Experimental verification of Landauer's principle linking information and thermodynamics ‎[334 bytes]
77. (hist) ‎Potential and flux decomposition for dynamical systems and non-equilibrium thermodynamics: Curvature, gauge field, and generalized fluctuation-dissipation theorem ‎[332 bytes]
78. (hist) ‎Tagged particle in a sheared suspension: Effective temperature determines density distribution in a slowly varying external potential beyond linear response ‎[326 bytes]
79. (hist) ‎Non-equilibrium steady states: Maximization of the Shannon entropy associated with the distribution of dynamical trajectories in the presence of constraints ‎[326 bytes]
80. (hist) ‎The thermodynamics of computation-a review ‎[324 bytes]
81. (hist) ‎Nonequilibrium equality for free energy differences ‎[321 bytes]
82. (hist) ‎Fluctuation theorems for stochastic dynamics ‎[319 bytes]
83. (hist) ‎Energy transduction of isothermal ratchets: Generic aspects and specific examples close to and far from equilibrium ‎[317 bytes]
84. (hist) ‎Symmetry in full counting statistics, fluctuation theorem, and relations among nonlinear transport coefficients in the presence of a magnetic field ‎[317 bytes]
85. (hist) ‎Nonequilibrium steady state of a nanometric biochemical system: Determining the thermodynamic driving force from single enzyme turnover time traces ‎[317 bytes]
86. (hist) ‎Equilibrium free-energy differences from nonequilibrium measurements: A master-equation approach ‎[317 bytes]
87. (hist) ‎Nonlinear fluctuation-dissipation relations and stochastic models in nonequilibrium thermodynamics. I. Generalized fluctuation-dissipation theorem ‎[316 bytes]
88. (hist) ‎Mej´ıa-Monasterio C 2007 Fluctuations in nonequilibrium statistical mechanics: models ‎[314 bytes]
89. (hist) ‎Erratum: Nonequilibrium fluctuations, fluctuation theorems, and counting statistics in quantum systems ‎[314 bytes]
90. (hist) ‎Fluctuations and irreversibility: An experimental demonstration of a second-law-like theorem using a colloidal particle held in an optical trap ‎[313 bytes]
91. (hist) ‎Rory Brittain ‎[313 bytes]
92. (hist) ‎Effective confinement as origin of the equivalence of kinetic temperature and fluctuation-dissipation ratio in a dense shear-driven suspension ‎[312 bytes]
93. (hist) ‎Stochastic thermodynamics Selforganization by Nonlinear Irreversible Processes ‎[311 bytes]
94. (hist) ‎Thermodynamics of information ‎[310 bytes]
95. (hist) ‎Information-theoretic approach to the study of control systems ‎[308 bytes]
96. (hist) ‎John C. Doyle ‎[308 bytes]
97. (hist) ‎Reviews of nonlinear dynamics and complexity Nonequilibrium Statistical Physics of Small Systems: Fluctuation Relations and Beyond (Weinheim: Wiley-VCH) ‎[308 bytes]
98. (hist) ‎Classical open systems with nonlinear nonlocal dissipation and state-dependent diffusion: Dynamical responses and the Jarzynski equality ‎[306 bytes]
99. (hist) ‎Comparison of a hair bundle's spontaneous oscillations with its response to mechanical stimulation reveals the underlying active process ‎[306 bytes]
100. (hist) ‎Biased sampling of nonequilibrium trajectories: Can fast switching simulations outperform conventional free energy calculation methods? ‎[305 bytes]

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