Discrete master equations can be obtained from the diffusion-Smoluchowski equation in the presence of large barriers separating the potential minima, the treatment being equivalent to the derivation of the Kramers transition rates in the overdamped regime. The one-dimensional problem is considered as a test case to illustrate the projection procedure onto the subspace of localized functions. This method, however, generalizes the Kramers theory to intermediate potentials barriers. The inertial effects are shortly discussed in relation to the numerical solutions for a bistable problem. The coupling between the overall rotation and the conformational transitions is analyzed in a molecule with one torsional degree of freedom. The generalizatio...
Site jump models are often used to interpret spectroscopic effects of molecular motions occurring in...
The model of three coupled rotors is analyzed by solving the corresponding Fokker-Plank equation of ...
Liquid crystal phases are typically formed by molecules having several degrees of internal freedom. ...
Discrete master equations can be obtained from the diffusion-Smoluchowski equation in the presence o...
Models based on the neglect of the coupling of the overall molecular rotations with the conformation...
A theoretical analysis based on a multivariate diffusion equation is developed to study the rotation...
By analyzing the barrier crossing problem according to the Kramers theory, one derives that a confor...
The method proposed in the companion paper for analysing the coupling between overall and internal d...
The master equation describing the random walk between sites identified with the stable conformers o...
The conformational transitions lead to reorientations of a small fraction only of a chain molecule. ...
The cooperativity of the torsional displacements in the conformational transitions of oligomeric cha...
The model system of the rotor chain is considered in order to analyze the coupling between conformat...
©1982 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
The assumption of a timescale separation between conformational kinetics and torsional modes, implic...
Molecular dynamics simulations of a variety of polymeric systems provide the evidence for two differ...
Site jump models are often used to interpret spectroscopic effects of molecular motions occurring in...
The model of three coupled rotors is analyzed by solving the corresponding Fokker-Plank equation of ...
Liquid crystal phases are typically formed by molecules having several degrees of internal freedom. ...
Discrete master equations can be obtained from the diffusion-Smoluchowski equation in the presence o...
Models based on the neglect of the coupling of the overall molecular rotations with the conformation...
A theoretical analysis based on a multivariate diffusion equation is developed to study the rotation...
By analyzing the barrier crossing problem according to the Kramers theory, one derives that a confor...
The method proposed in the companion paper for analysing the coupling between overall and internal d...
The master equation describing the random walk between sites identified with the stable conformers o...
The conformational transitions lead to reorientations of a small fraction only of a chain molecule. ...
The cooperativity of the torsional displacements in the conformational transitions of oligomeric cha...
The model system of the rotor chain is considered in order to analyze the coupling between conformat...
©1982 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
The assumption of a timescale separation between conformational kinetics and torsional modes, implic...
Molecular dynamics simulations of a variety of polymeric systems provide the evidence for two differ...
Site jump models are often used to interpret spectroscopic effects of molecular motions occurring in...
The model of three coupled rotors is analyzed by solving the corresponding Fokker-Plank equation of ...
Liquid crystal phases are typically formed by molecules having several degrees of internal freedom. ...