Add to ORKGWe present a computationally efficient molecular dynamics method based on holonomic constraints devised to estimate the rate constants of rare activated events of short duration.We assume that the process is described by a reaction coordinate $ \xi(r)$, a well-defined function in configuration space, and we constrain the system at the ``bottleneck" region by prescribing the value of $ \xi(r)$. MD trajectories sample now phase space according to a biased configurational distribution and averages can be taken from such a new, {\it Blue Moon }, ensemble with suitable reweighting to study rare events. Applications are not restricted to classical processes and ways to extend the method to quantum activated processes in condensed phases are al...
Sampling rare, short-time, and reactive trajectories is of considerable interest in molecular simula...
Reactive molecular dynamics (MD) simulations are a versatile tool which allow for studying reaction ...
Rare events are processes that occur on time-scales longer than those currently accessible by brute ...
We present a computationally efficient molecular dynamics method based on holonomic constraints dev...
We present a computationally efficient molecular dynamics method, based on holonomic constraints, de...
A computationally efficient molecular dynamics method for estimating the rates of rare events that o...
The "Blue Moon" ensemble is a computationally efficient molecular dynamics method to estimate the ra...
A good deal of molecular dynamics simulations aims at predicting and quantifying rare events, such a...
The efficient calculation of rare-event kinetics in complex dynamical systems, such as the rate and ...
We present a simple, comprehensive technique for accelerating simulation of rare events and calculat...
Mechanisms of rare transitions between long-lived stable states are often analyzed in terms of commi...
Molecular dynamics simulations can give atomistic insight into chemical systems and processes. Howev...
The problem of observing rare events is pervasive among the molecular dynamics community and an arra...
We introduce a new approach to evaluate transition rates for rare events in complex many-particle sy...
The problem of observing rare events is pervasive among the molecular dynamics community and an arra...
Sampling rare, short-time, and reactive trajectories is of considerable interest in molecular simula...
Reactive molecular dynamics (MD) simulations are a versatile tool which allow for studying reaction ...
Rare events are processes that occur on time-scales longer than those currently accessible by brute ...
We present a computationally efficient molecular dynamics method based on holonomic constraints dev...
We present a computationally efficient molecular dynamics method, based on holonomic constraints, de...
A computationally efficient molecular dynamics method for estimating the rates of rare events that o...
The "Blue Moon" ensemble is a computationally efficient molecular dynamics method to estimate the ra...
A good deal of molecular dynamics simulations aims at predicting and quantifying rare events, such a...
The efficient calculation of rare-event kinetics in complex dynamical systems, such as the rate and ...
We present a simple, comprehensive technique for accelerating simulation of rare events and calculat...
Mechanisms of rare transitions between long-lived stable states are often analyzed in terms of commi...
Molecular dynamics simulations can give atomistic insight into chemical systems and processes. Howev...
The problem of observing rare events is pervasive among the molecular dynamics community and an arra...
We introduce a new approach to evaluate transition rates for rare events in complex many-particle sy...
The problem of observing rare events is pervasive among the molecular dynamics community and an arra...
Sampling rare, short-time, and reactive trajectories is of considerable interest in molecular simula...
Reactive molecular dynamics (MD) simulations are a versatile tool which allow for studying reaction ...
Rare events are processes that occur on time-scales longer than those currently accessible by brute ...