The hydrogen atom according to wave mechanics - I. spherical polar coordinates

Abstract

In the first of five parts in a series, the Schroedinger equation is solved in spherical polar coordinates to yield wave functions that enable an accurate calculation of the frequencies and intensities of lines in the absorption spectrum of the Lyman series in the vacuum-ultraviolet region. Accurate plots of surfaces of amplitude functions illustrate the variation of shapes and sizes varying with quantum numbers k, l, m for comparison with the corresponding plots of amplitude functions in other systems of coordinates.