Higham, J. and Henchman, R.H. (2016) Locally adaptive method to define coordination shell. Journal of Chemical Physics, 145 (8): 084108. ISSN 0021-9606
Full text not available from this repository.Abstract
An algorithm is presented to define a particle’s coordination shell for any collection of particles. It requires only the particles’ positions and no pre-existing knowledge or parameters beyond those already in the force field. A particle’s shell is taken to be all particles that are not blocked by any other particle and not further away than a blocked particle. Because blocking is based on two distances and an angle for triplets of particles, it is called the relative angular distance (RAD) algorithm. RAD is applied to Lennard-Jones particles in molecular dynamics simulations of crystalline, liquid, and gaseous phases at various temperatures and densities. RAD coordination shells agree well with those from a cut-off in the radial distribution function for the crystals and liquids and are slightly higher for the gas.