Laplace-transform approach to the quantal Coulomb problem

A complex Laplace transform function was inverted by three numerical methods and compared to the small time and large time approximation curves. This technique enabled the best choice of an inversion method to be made, since one method gave excellent results, at both small and large times and moved

Perturbation method based on the group theory is developed for the radial solution of the Schrijdinger equation with screened Coulomb potential. It may be treated as an alternative to the analytic perturbation theory proposed recently by M&man, Kissel, and Pratt (Phys. Rev. A 2 (1976), 532) and is b

## Abstract Variational boundary element formulations are developed. Two functionals based on the dual and complementary energy approach are considered, which provide the upper and lower bound of the solution. Calculated examples of electrostatic fields are demonstrated for their field distribution

## Abstract We consider the problem of finding __u__ ∈ __L__ ^2^(__I__ ), __I__ = (0, 1), satisfying ∫~__I__~ __u__ (__x__ )__x__ d__x__ = __μ__ ~__k__~ , where __k__ = 0, 1, 2, …, (__α__ ~__k__~ ) is a sequence of distinct real numbers greater than –1/2, and **__μ__** = (__μ__ ~__kl__~ ) is a g