The use of the Monte Carlo method to generate particle positions is important in both forward- and inverse-scattering problems of microwave and optical waves in dense media.
Thin films exhibit diverse morphologies involving cluster, facets, columnar structures, voids, and intricate grain boundary networks.
We develop and experimentally verify novel Monte Carlo simulations of ultrafast resonant Rayleigh scattering from quantum well excitons.
The semiconductor community continues to push the limits of device dimensions by exploring new high-resolution lithography technology.
We have studied the electromigration failure distributions as a function of current density, and we shoe experimentally that the forms deviate from lognormal distributions as j approaches critical
Carbon in silicon appears in high concentrations, ranging from 10 sup (16) to 10 sup (18) cm sup (-3), well above its solubility at the usual annealing temperatures.
This paper presents a new technique, called Montra, for accurately capturing traffic in a widely deployed DHT.
Sir-In David G.
Well-learned decision rules, based on conceptual analysis of concrete problem elements, were applied by learners to a large number of practice problems.
Reference 1 has described a methodology for calculating long-term distributions of high rain rates by applying the theory of extreme value statistics to the yearly maximum 5-minute rain rate data p
