Add to ORKGWe introduce a method to evaluate simultaneously the reaction rate constant and the free energy profile of a process in a complex environment. The method employs the partial path transition interface sampling technique we recently developed for the calculation of rate constants in diffusive systems. We illustrate the applicability of the technique by studying a simple dimer in a repulsive fluid, and show that the free energy can be obtained at no additional computational cost.status: publishe
We present a theory of rare events and derive an algorithm to obtain rates from postprocessing the ...
Thesis (Ph. D.)--University of Washington, 2001An important problem in theoretical chemistry is the ...
ABSTRACT: Equilibrium free-energy differences can be computed from non-equilibrium molecular dynamic...
We derive a novel efficient scheme to measure the rate constant of transitions between stable states...
1.1 Rare Events and free energy landscapes Many interesting physical, chemical and biological proces...
We introduce a path sampling method for the computation of rate constants for complex systems with a...
A method for sampling efficiently the free energy landscape of a complex system with respect to some...
We introduce a new approach to evaluate transition rates for rare events in complex many-particle sy...
We review two recently developed efficient methods for calculating rate constants of processes domin...
Transition path sampling (TPS) was developed for studying activated processes in complex systems wit...
The efficient calculation of rare-event kinetics in complex dynamical systems, such as the rate and ...
Mechanisms of rare transitions between long-lived stable states are often analyzed in terms of commi...
We analyze the efficiency of different methods for the calculation of reaction rates in the case of ...
We present a novel transition path sampling shooting algorithm for the efficient sampling of complex...
We present a simple, comprehensive technique for accelerating simulation of rare events and calculat...
We present a theory of rare events and derive an algorithm to obtain rates from postprocessing the ...
Thesis (Ph. D.)--University of Washington, 2001An important problem in theoretical chemistry is the ...
ABSTRACT: Equilibrium free-energy differences can be computed from non-equilibrium molecular dynamic...
We derive a novel efficient scheme to measure the rate constant of transitions between stable states...
1.1 Rare Events and free energy landscapes Many interesting physical, chemical and biological proces...
We introduce a path sampling method for the computation of rate constants for complex systems with a...
A method for sampling efficiently the free energy landscape of a complex system with respect to some...
We introduce a new approach to evaluate transition rates for rare events in complex many-particle sy...
We review two recently developed efficient methods for calculating rate constants of processes domin...
Transition path sampling (TPS) was developed for studying activated processes in complex systems wit...
The efficient calculation of rare-event kinetics in complex dynamical systems, such as the rate and ...
Mechanisms of rare transitions between long-lived stable states are often analyzed in terms of commi...
We analyze the efficiency of different methods for the calculation of reaction rates in the case of ...
We present a novel transition path sampling shooting algorithm for the efficient sampling of complex...
We present a simple, comprehensive technique for accelerating simulation of rare events and calculat...
We present a theory of rare events and derive an algorithm to obtain rates from postprocessing the ...
Thesis (Ph. D.)--University of Washington, 2001An important problem in theoretical chemistry is the ...
ABSTRACT: Equilibrium free-energy differences can be computed from non-equilibrium molecular dynamic...