F. Ritort. Nonequilibrium fluctuations in small systems: From physics to biology. In S. A. Rice, editor, Advances in Chemical Physics, volume 137. John Wiley & Sons,, April 2008.Ritort, F.: Nonequilibrium fluctuations in small systems: From physics to biology. http://arxiv.org/abs/ ...
F. Ritort, Nonequilibrium fluctuations in small systems: From physics to biology, Adv. Chem. Phys. 137 (2008) 31.Felix Ritort. Nonequilibrium Fluctuations in small systems : from physics to biology, 2008.F. Ritort. Nonequilibrium fluctuations in small systems: From physics to biology. ...
Much of the current interest in non- equilibrium physics stems from progress in fields as far flung as biology: reconciling the details of biomolecular processes calls into question the thermodynamics of small systems. And the fact that a living system in equilibrium is oxymoronic (or dead) has...
G. Nicolis, "Some aspects of fluctuation theory in non-equilibrium systems", in Stochastic NonLinear Systems in Physics, Chemistry and Biology, Eds. L. Arnold and R. Lefever Springer-Verlag, Berlin-Heidelberg, 1981, p. 44-52.Nicolis, G. (1985) Some Aspects of Fluctuation Theory in Non...
J.M. SanchoSpringer Berlin HeidelbergM. San Miguel and J. M. Sancho: Stochastic Nonlinear Systems in Physics, Chemistry and Biology , L. Arnold and R. Lefever, eds. (Springer, Berlin, Heidelberg, New York, 1981), p. 137; and J. M. Sancho, this volume....
In subject area: Physics and Astronomy Nonequilibrium plasmas are a type of plasma where the transfer of energy from electrons to heavy particles is not in thermal equilibrium, resulting in different temperatures between electrons and ions.
A PyTorch implementation of the present algorithm can be found in Supplementary Data 1 and at the GitHub repository (https://github.com/Machine-learning-and-complex-systems/DPT). References Nonequilibrium Statistical Physics of Small Systems: Fluctuation Relations and Beyond, edited by R. Klages, ...
This book will be an excellent resource for graduate students and researchers in the fields of engineering, chemistry, physics, energy, biotechnology, and biology, as well as those whose work involves understanding the evolution of nonequilibrium systems, information theory, stochastic processes, and ...
(NESS) that bear little resemblance with equilibrium ones28. Well-known examples are regulatory and metabolic networks in biochemistry29and, more generally, all chemical transformations that proceed thanks to catalysts, such as enzyme catalysis in biology, where substrate and product species are kept ...
We extend our formalism to non-equilibrium non-Markovian systems, confirming its broad applicability to equilibrium and non-equilibrium systems in biology, chemistry, and physics.Springer Berlin HeidelbergThe European Physical Journal ELaura Lavacchihttps://ror.org/046ak2485grid.14095.390000 0001 2185 ...