UID:
almahu_9949697506002882
Umfang:
1 online resource (797 p.)
Ausgabe:
Rev. and enl. ed.
ISBN:
9786611119171
,
1-281-11917-2
,
0-08-051750-1
Inhalt:
This book is written for graduate students just beginning research, for theorists curious about what experimentalists actually can and do measure, and for experimentalists bewildered by theory. It is a guide for potential users of spectroscopic data, and uses language and concepts that bridge the frequency-and time-domain spectroscopic communities. Key topics, concepts, and techniques include: the assignment of simple spectra, basic experimental techniques, definition of Born-Oppenheimer and angular momentum basis sets and the associated spectroscopic energy level patterns (Hund's
Anmerkung:
"'The spectra and dynamics of diatomic molecules' is a revised and enlarged edition of the 1986 title 'Perturbations in the spectra of diatomic molecules.'"
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Cover; Contents; Chapter 1. Simple Spectra and Standard Experimental Techniques; 1.1 Rotation-Vibration-Electronic Spectra of Diatomic Molecules; 1.2 Experimental Techniques of Diatomic Molecule Spectroscopy; 1.3 References; Chapter 2. Basic Models; 2.1 What Is a Perturbation?; 2.2 Structural Models; 2.3 Elementary Properties of Angular Momenta in Diatomic Molecules; 2.4 Estimation of Parameters in a Model Hamiltonian; 2.5 Data Compilations; 2.6 References; Chapter 3. Terms Neglected in the Born-Oppenheimer Approximation; 3.1 The Born-Oppenheimer Approximation; 3.2 Basis Functions
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3.3 Electrostatic Perturbations3.4 Spin Part of the Hamiltonian; 3.5 Rotational Perturbations; 3.6 References; Chapter 4. Methods of Deperturbation; 4.1 Variational Calculations; 4.2 The Van Vleck Transformation and Effective Hamiltonians; 4.3 Approximate Solutions; 4.4 Exact Solutions; 4.5 Typical Examples of Fitted Perturbations; 4.6 References; Chapter 5. Interpretation of the Perturbation Matrix Elements; 5.1 Calculation of the Vibrational Factor; 5.2 Order of Magnitude of Electrostatic Perturbation Parameters:Interactions Between Valence and Rydberg States of the Same Symmetry
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5.3 Order of Magnitude of Spin Parameters5.4 Magnitudes of Rotational Perturbation Parameters; 5.5 Pure Precession Approximation; 5.6 R-Dependence of the Spin Interaction Parameters; 5.7 Beyond the Single-Configuration Approximation; 5.8 Identification and Location of Metastable States by Perturbation Effects; 5.9 References; Chapter 6. Transition Intensities and Special Effects; 6.1 Intensity Factors; 6.2 Intensity Borrowing; 6.3 Interference Effects; 6.4 Forbidden Transitions; Intensity Borrowing by Mixing with a Remote Perturber; 6.5 Special Effects; 6.6 References
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Chapter 7. Photodissociation Dynamics7.1 Photofragmentation; 7.2 Direct Dissociation; 7.3 Introduction to Predissociation; 7.4 Experimental Aspects of Predissociation; 7.5 Theoretical Expressions for Widths and Level Shifts; 7.6 The Vibrational Factor; 7.7 Mulliken's Classification of Predissociations; 7.8 The Electronic Interaction Strength; 7.9 Fano Lineshape; 7.10 Isotope Effects; 7.11 Examples of Predissociation; 7.12 Case of Intermediate Coupling Strength; 7.13 Indirect (Accidental) Predissociation and Interference Effects; 7.14 Some Recipes for Interpretation; 7.15 References
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Chapter 8. Photoionization Dynamics8.1 Direct Ionization; 8.2 Experimental Aspects of Autoionization; 8.3 The Nature of Autoionized States; 8.4 Autoionization Widths; 8.5 Rotational Autoionization; 8.6 Vibrational Autoionization; 8.7 Spin-Orbit Autoionization; 8.8 Electronic (or Electrostatic) Autoionization; 8.9 Validity of the Approximations; 8.10 Influence of Autoionization on ZEKE Peak Intensities; 8.11 Photoelectron Angular Distribution, Photoion Alignment, and Spin Polarization; 8.12 Competition between Autoionization and Predissociation
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8.13 Coherent Control of Photofragmentation Product Branching Ratios
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English
Weitere Ausg.:
ISBN 0-12-441455-9
Weitere Ausg.:
ISBN 0-12-441456-7
Sprache:
Englisch
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