Korpuskeln und Strahlung in Materie I / Corpuscles and Radiation in Matter I, Softcover reprint of the original 1st ed. 1982 Röntgenstrahlen und Korpuskularstrahlen / X-Rays and Corpuscular Rays Series

This volume deals with specific fields of atomic physics: photoionization, photoelectron spectroscopy and the Auger effect. Here a vast amount of experimental and theoretical results has emerged during the last two decades, indeed in the case of photoelectron spectroscopy the field itself has been developed only since the mid-fifties. Experimentally, this was mostly due to the development of high resolution electron spectrometers and the availability or the development of new radiation sources (e. g. synchrotron radiation, reso­ nance radiation of rare gas discharge lamps, monochromatized characteristic X-radiation). Here, not only first-order effects with high precision but, even more important, also second-order effects caused by electron correlation were studied. Parallel to the development of new experimental methods, an impor­ tant step beyond the independent-particle model was made on the theoretical side through the development of various approaches to treat electron cor­ relation effects seen in photoionization and electron spectroscopy. Volume 31 is divided into the following chapters: Theory of Photoion­ ization, Atomic Photoionization, Photoelectron Spectroscopy, and Theory of the Auger Effect. A chapter on Auger Electron Spectrometry could not be includ­ ed since the manuscript was not sent in due time. Freiburg, September W. MEHLHORN 1982 Contents Theory of Atomic Photoionization. By Professor Dr. ANTHONY F. STARACE, Behlen Laboratory of Physics, Department of Physics and Astronomy, The University of Nebraska, Lincoln, NE 68588 (USA). (With 40 Figures) 1. Introduction I. General considerations 5 2. Introduction 5 3. Derivation of the general cross-section formula 6 4. The final-state wave function . . . . . . .

Theory of Atomic Photoionization.- 1. Introduction.- I. General considerations.- II. The central potential model and its predictions.- III. General methods for including electron correlation.- IV. Specialized topics in the theory of photoionization.- Atomic Photoionization.- 1. Introduction.- 2. Historical Review.- I. Absorption of radiation.- II. Experimental techniques.- III. Photoionization measurements.- General references.- Photoelectron Spectroscopy.- I. Introduction.- II. Experimental procedures and general features of photoelectron spectra.- III. Atomic photoelectron spectra.- IV. Core level studies in molecules and condensed matter.- V. Valence level studies in molecules and condensed matter.- Appendix: Graph of electron binding energies for the elements.- Theory of the Auger Effect.- I. A nonrelativistic scattering approach to the decay of inner-shell vacancy states.- II. Nonrelativistic theory of nonradiative transitions.- III. Relativistic theory of nonradiative transitions.- IV. Angular distribution of Auger electrons.- V. The calculation of nonradiative transition energies.- VI. The calculation of nonradiative transition amplitudes.