Molecular Applications of Quantum Defect Theory
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advanced quantum defect applications
atomic collision processes
atomic theory
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Closed Channels
configuration interaction
Coulomb Functions
Dielectronic Recombination
Dipole Matrix Elements
Dissociation Channel
Dissociative Recombination
eigenchannel analysis
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Frame Transformation
Ionic Core
molecular applications
multiphoton excitation
Orbital Angular Momentum
Oscillator Strength
Parabolic Coordinates
Photoelectron Angular Distribution
Photoionisation Cross Section
Photoionisation Spectra
quantum defect theory
Quantum Defects
Radial Function
Reaction Matrix
relativistic atomic physics
Rydberg Electron
Rydberg Level
Rydberg Series
Rydberg States
Stark Effect
van der Waals interactions
Vibrational Levels
VUV radiation generation
Wave Function
Product details
- ISBN 9780750301626
- Weight: 1065g
- Dimensions: 156 x 234mm
- Publication Date: 01 Jan 1996
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Hardback
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As a consequence of new experimental techniques in optical and collision physics, such as multiphoton excitation and VUV radiation generation, quantum defect theory (QDT) has become more widely used as a theoretical tool for experimentalists.
Drawing together a historical body of work that contains key research and review papers, Molecular Applications of Quantum Defect Theory studies the QDT and its applications. The book presents all of the elements required to perform useful work in the field while highlighting the versatility and vast possibilities of the applications of the quantum defect method. It begins with an introductory essay written by Professor M. Seaton, one of the pioneers of the field, who outlines the historical development of QDT. The book also includes a substantial bibliography section.
