Addressing nonlinearities in Monte Carlo

A short study of hard heptagons reveals that the mismatch between particle shape and crystal structure symmetry is, as one expects, less severe than in the pentagon case, resulting in

"Green's relation" results in a larger variance of the average energy so convergence is not as rapid but the method permits the use of a scaling rela- tion so that

Monte Carlo simulations of the response of two different Si(Li) detectors to K X-rays have been performed in order to quantify possible contributions of

Abstract : The x-rays imagining chains components from the source to the detector, rest on the first part of simulation to the energy production of x-rays emission (source),

In this work, we adopted the differential cross section of Mott and the total cross section of inner-shell ionization according to the formulation of Gryzinski, to simulate the

In addition to various inter- and intra-layer diffusion processes of Si and Ge adatoms, we include a model strain-driven mechanism that gives rise to defects

The developed technique was used for computation of X-ray optical systems with double-bent crystals which are of high interest in development of X-ray spect- rometers of

Following methods outlined in earlier work [la, lb, 51 we calcul- ate average structure factors for an equilibrated unit cell of ice Ih consisting of 192 water molecules