Simulation of cluster impact fusion

A theoretical model is presented for shock-wave cluster impact fusion that can explain and predict D-D fusion rates for D,O. H?O, and D cluster beams impacting on deuterated targets, e.g. TiD, ( C2D4) I) and ZrD,.bS. Two physically reasonable parameters, obtained from one set of data, are used as i

Numerical investigations have been carried out for thermonuclear fusion processes under hypervelocity impact of micro-projectile composed of deuterium-tritium mixture on a surface of solid target. The results are discussed. Crucial thermonuclear fusion initiation parameters are defined.

Energetic impact of C 60 fullerene molecules on surfaces are beginning to find a number of applications. In particular the scattering of fullerene molecules from surfaces has for some time now been a good method of determining the mechanical properties of the molecular cages. But also the use of C 6

Molecular dynamics (MD) simulations of cluster and solid target collisions were performed in order to understand the relationship between surface deformation processes and cluster sizes. MD simulations of single impacts of clusters with various sizes showed that, when a cluster size is less than 10