On the computation of correlation functions in molecular dynamics experiments

A vectorized version of FORTRAN programs is described which allows the computation of static and dynamic correlation functions to run about a factor 10-15 faster on the Cyber 205 vector machine as compared to the scalar computer 175. As typical examples we discuss the static pair correlation functio

The correlation functions of a suspension of Lennard-Jones large particles in a model 1,4-cis-polybutadiene solvent have been investigated by molecular dynamics simulations. We present the effects of temperature, the degree of polymerization, and the solvent/large particle density on the effective i

Molecular dynamics [l-S] produces particle trajectories for a.tomic and molecuiar fluids and solids. Time-displaced autocorrelation functions calculated from these trajectoreis are used to study a host of transport, relaxation and light scattering processes [6,7]. The autocorrelation function C(t) o

A numerical study of the accuracy on the determination of a unique global canonical correlation coefficient C between two groups of random Ž variables is presented as a function of the number of variables of both groups n . and m, respectively , of the sampling size N and of the actual level of corr