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TitleNumerical Methods for Polymeric Systems [electronic resource] / edited by Stuart G. Whittington
ImprintNew York, NY : Springer New York : Imprint: Springer, 1998
Connect tohttp://dx.doi.org/10.1007/978-1-4612-1704-6
Descript XI, 223 p. online resource

SUMMARY

Polymers occur in many different states and their physical properties are strongly correlated with their conformations. The theoretical investigation of the conformational properties of polymers is a difficult task and numerical methods play an important role in this field. This book contains contributions from a workshop on numerical methods for polymeric systems, held at the IMA in May 1996, which brought together chemists, physicists, mathematicians, computer scientists and statisticians with a common interest in numerical methods. The two major approaches used in the field are molecular dynamics and Monte Carlo methods, and the book includes reviews of both approaches as well as applications to particular polymeric systems. The molecular dynamics approach solves the Newtonian equations of motion of the polymer, giving direct information about the polymer dynamics as well as about static properties. The Monte Carlo approaches discussed in this book all involve sampling along a Markov chain defined on the configuration space of the system. An important feature of the book is the treatment of Monte Carlo methods, including umbrella sampling and multiple Markov chain methods, which are useful for strongly interacting systems such as polymers at low temperatures and in compact phases. The book is of interest to workers in polymer statistical mechanics and also to a wider audience interested in numerical methods and their application in polymeric systems


CONTENT

Convergence rates for Monte Carlo experiments -- Umbrella sampling and simulated tempering -- Monte Carlo study of polymer systems by multiple Markov chain method -- Measuring forces in lattice polymer simulations -- A knot recognition algorithm -- Geometrical entanglement in lattice models of ring polymers: Torsion and writhe -- Oriented self-avoiding walks with orientation-dependent interactions -- A Monte Carlo algorithm for studying the collapse transition in lattice animals -- Monte Carlo simulation of the O-point in lattice trees -- Molecular dynamics simulations of polymer systems -- Dynamics of polymers near the theta point -- Self diffusion coefficients and atomic mean-squared displacements in entangled hard chain fluids


Mathematics Applied mathematics Engineering mathematics Numerical analysis Probabilities Mathematics Numerical Analysis Applications of Mathematics Probability Theory and Stochastic Processes



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