Add to ORKGA recent model of the behavior of Gaussian chains in steady shear flow [J. Chem. Phys. 112, 8707 (2000)] is extended to include the effects of stiffness and finite extensibility. Calculations of the shear rate dependence of fractional elongation and of the time dependence of size fluctuations are found to be in good agreement with results from an experimental study of the behavior of single chains of DNA in steady shear flow. As in the earlier approach to the polymer-flow problem, we have ignored excluded volume and hydrodynamic interactions, but have instead added a bending energy contribution to the Hamiltonian of the chain, and have treated the usual connectivity term as a contribution to chain stretching that can be adjusted to ensure t...
Recent simulations by Chu et al. [Phys. Rev. E 66, 011915 (2002)] on the behavior of bead–spring and...
We present the results of Brownian dynamics simulations of a series of different polymer models whic...
ABSTRACT: The mechanical response of networks, gels, and brush layers is a manifestation of the elas...
A recent model of the behavior of Gaussian chains in steady shear flow [J. Chem. Phys. 112, 8707 (20...
Static properties of a single polymer fixed at one end and subjected to a uniform flow field are i...
Recent experimental measurements of the static and dynamic properties of single fluorescently labele...
A theoretical description is provided for the nonequilibrium conformational and dynamical properties...
We investigate the stretching of a polymer in a uniform flow using molecular dynamics (MD) simulatio...
We discuss the stretching of tethered chains subject to a shear flow. Fluorescence microscopy meas...
Using Brownian hydrodynamic simulation techniques, we study single polymers in shear. We investigate...
The conformational dynamics of individual, ßexible polymers in steady shear ßow were directly observ...
Among various molecular characteristics of polymer such as chemical composition, molecular weight, e...
The conformational dynamics of individual, ßexible polymers in steady shear ßow were directly observ...
The Jarzynski relation (and its variants) has provided a route to the experimental evaluation of equ...
Open AccessWe present exact and analytically accurate results for the problem of a flexible polymer ...
Recent simulations by Chu et al. [Phys. Rev. E 66, 011915 (2002)] on the behavior of bead–spring and...
We present the results of Brownian dynamics simulations of a series of different polymer models whic...
ABSTRACT: The mechanical response of networks, gels, and brush layers is a manifestation of the elas...
A recent model of the behavior of Gaussian chains in steady shear flow [J. Chem. Phys. 112, 8707 (20...
Static properties of a single polymer fixed at one end and subjected to a uniform flow field are i...
Recent experimental measurements of the static and dynamic properties of single fluorescently labele...
A theoretical description is provided for the nonequilibrium conformational and dynamical properties...
We investigate the stretching of a polymer in a uniform flow using molecular dynamics (MD) simulatio...
We discuss the stretching of tethered chains subject to a shear flow. Fluorescence microscopy meas...
Using Brownian hydrodynamic simulation techniques, we study single polymers in shear. We investigate...
The conformational dynamics of individual, ßexible polymers in steady shear ßow were directly observ...
Among various molecular characteristics of polymer such as chemical composition, molecular weight, e...
The conformational dynamics of individual, ßexible polymers in steady shear ßow were directly observ...
The Jarzynski relation (and its variants) has provided a route to the experimental evaluation of equ...
Open AccessWe present exact and analytically accurate results for the problem of a flexible polymer ...
Recent simulations by Chu et al. [Phys. Rev. E 66, 011915 (2002)] on the behavior of bead–spring and...
We present the results of Brownian dynamics simulations of a series of different polymer models whic...
ABSTRACT: The mechanical response of networks, gels, and brush layers is a manifestation of the elas...