A soluble model for time dependent perturbations of an unstable quantum system

We use asymptotic analysis to construct a domain decomposition method for a time-dependent singularly perturbed system with turning points. Together with the other numerical techniques, we develop an algorithm, which can provide accurate and efficient numerical solutions for the system.

A mathematical model for an olfactory receptor neuron is investigated. The physiological and anatomical background required for the construction of a mathematical model are explained. The model, which has been described previously, has three components, including the sensory dendrite on which are fo

We present a method for the computation of time-dependent quantum correlation functions. We calculate the temperature dependence ofthe correlation function at zero time and analytically continue to obtain the time dependence at finite temperature.

The Markov analysis of reliability models frequently involves a partitioning of the state space into two or more subsets, each corresponding to a given degree of functionality of the system. A common partitioning is G U B U { W ) , where G (good) and B (bad) stand, respectively, for fully and partia