A Monte Carlo approach to scattering off surfaces of triaxial ellipsoids

Monte Carlo methods for zcro energy quantum scartenng are developed. StaRing from path integral representations for scattering observables, we present results of numerical calculations for potential scattering and scattering off a schematic 4tte nucleus. The convergence proper,.ics of Monte Carlo al

Composite particles containing internal scatterers have been proposed as an explanation for the fact that most photometric studies of planetary surfaces based on Hapke's bidirectional reflectance model have found the planetary particles to exhibit moderately backscattering phase functions. However,

## Combining a wa¨elet transform and banded-matrix itera-( ) ti¨e approachrcanonical grid method BMIArCG , an efficient algorithm for sol¨ing the large-scale electromagnetic problems is proposed. Based on the concept of the multiresolution analysis, the banded matrix associated with the strong near

## Abstract A Monte Carlo method is presented to calculate equilibria for the binding of ligands to one‐dimensional heteropolymers. Equivalency with other methods suitable for particular cases was verified (i.e., matrix and combinatorial methods). The principal interest of this Monte Carlo method i