Cambridge University Press, 2005, Pages: 286
Electronic and photoelectron spectroscopy provides extraordinarily detailed information on the properties of molecules. This book presents the basic principles and experimental techniques employed in electronic and photoelectron spectroscopy. A major feature is the extensive use of case studies to illustrate how spectra are assigned and how information can be extracted. The text is intended for advanced undergraduate and graduate students studying courses in spectroscopy.
The first two parts describe some of the principles and experimental techniques employed in mode electronic and photoelectron spectroscopy. These two parts are not intended to be exhaustive, but rather contain the basic tools necessary for delving into the Case Studies. Some of the more advanced concepts met in spectroscopy, such as vibronic coupling, nuclear spin statistics, and Hund’s coupling cases, are met only in certain specific Case Studies and can be entirely avoided by the reader.
Electronic and photoelectron spectroscopy provides extraordinarily detailed information on the properties of molecules. This book presents the basic principles and experimental techniques employed in electronic and photoelectron spectroscopy. A major feature is the extensive use of case studies to illustrate how spectra are assigned and how information can be extracted. The text is intended for advanced undergraduate and graduate students studying courses in spectroscopy.
The first two parts describe some of the principles and experimental techniques employed in mode electronic and photoelectron spectroscopy. These two parts are not intended to be exhaustive, but rather contain the basic tools necessary for delving into the Case Studies. Some of the more advanced concepts met in spectroscopy, such as vibronic coupling, nuclear spin statistics, and Hund’s coupling cases, are met only in certain specific Case Studies and can be entirely avoided by the reader.