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Gas-Phase Photoprocesses

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Gas-Phase Photoprocesses/ by Anatoly Pravilov.
Author:	Pravilov, Anatoly.
Description:	XX, 292 p. 128 illus., 39 illus. in color.online resource. :
Contained By:	Springer Nature eBook
Subject:	Atoms. -
Online resource:	https://doi.org/10.1007/978-3-030-65570-9
ISBN:	9783030655709

Gas-Phase Photoprocesses
Pravilov, Anatoly.

Gas-Phase Photoprocesses[electronic resource] /by Anatoly Pravilov. - 1st ed. 2021. - XX, 292 p. 128 illus., 39 illus. in color.online resource. - Springer Series in Chemical Physics,1232364-9003 ;. - Springer Series in Chemical Physics,111.

1. Introduction -- 2. General Kinetic Rules for Chemical Reactions, Collisional, and Intramolecular Processes -- 2.1. Rates of Reaction, Collisional, and Spontaneous Processes. Rate Constant. Kinetic Types of Simple Processes -- 2.2. Chemical Equilibrium. Equilibrium Constant -- 2.3. Arrhenius equation -- 2.4. Complex Reactions -- 2.4.1. Consecutive Reactions. Steady-state Method -- Problems -- References -- 3. Theory of Elementary Processes -- 3.1. Cross-sections, Rate Constants, and Probabilities of Elementary processes -- 3.2. The detailed balance principle. Adiabatic approximations. Potential Energy Curves and Surfaces -- 3.3. Descriptions of Collisional Processes using Potential Energy Curves and Surfaces. Intramolecular Vibrational Relaxation in Polyatomic Molecules -- 3.4. Non-adiabatic Transitions. Perturbation theory. Probabilities of Adiabatic and Non-adiabatic Transitions -- 3.5. Intermolecular Interactions. Types of Intermolecular Interactions -- 3.6. Semiempirical Model Potentials -- Problems -- References -- 4. Photoprocesses -- 4.1. Primary and Secondary Gas-Phase Photoprocesses. Quantum Yields of the Gas-Phase Photoprocesses -- 4.2. Optical Transitions. Selection Rules for Optical Transitions. Spin-Orbit Coupling and Spin-Forbidden Radiative Transitions -- 4.3. Absorption. Absorption Band Intensities. Einstein Transition Probabilities. Oscillator Strength. Transition Dipole Moment. Beer-Lambert Law -- 4.4. Franck-Condon Principle for Bound-bound and Bound-free Optical Transitions -- 4.5. Luminescence. Radiative lifetime. The Relationship between Einstein Transition Probabilities and Transition Dipole Moment -- 4.6. Intramolecular Perturbations. Selection Rules and Franck-Condon Principle for Intramolecular Perturbation. Perturbations between Bound States. Abnormally long Radiative Lifetime -- 4.7. Spontaneous Predissociation of Two-, Tri- and Polyatomic Molecules. Classes of Predissociation Processes -- 4.8. Photodecay of Two-, Tri- and Polyatomic Molecules. Long-lived States of Polyatomic Molecules -- References -- 5. Energy Transfer in Collisions -- 5.1. Translational-Translational Energy Transfer (T-T exchange) -- 5.2. Rotational-Translational Energy Transfer (R-T exchange) -- 5.3. Vibrational Energy Transfer (V-T, V-R,T Processes) -- 5.4. Non-adiabatic Coupling and Vibrational Energy Transfer -- 5.5. Collision-Induced Non-Adiabatic Transitions -- 5.6. Collision-Induced Predissociation -- 5.7. Vibrational Relaxation via Several Electronic States -- 5.8. Electronic Deactivation -- Problems -- References -- 6. Weakly-Bound Complexes -- 6.1. Hydrogen- and Halogen-Bond Complexes -- 6.2. Van der Waals Complexes. 6.3. Rare gas-halogen Molecule Clusters -- References -- 7. Termolecular reactions -- 7.1. Termolecular recombination. Mechanism of Termolecular Recombination -- References -- 8. Chemiluminescence -- 8.1. Classes of Chemiluminescence Processes.Gas-P Rate Constants -- 8.2. General Rules of Radiative Recombination -- References -- Solution of Problems -- Index.

This book provides details of the basic frameworks and characteristics of processes occurring in electronically excited states of small molecules, complexes, and clusters. It discusses the perturbations in electronically excited valence states of molecules induced by intramolecular interaction and intermolecular interactions, which occur in collisions and optically populated, weakly bound complexes. Further, it describes the kinetics and mechanisms of photoprocesses in simple molecules and recombination accompanied by radiation. The book also offers information on general kinetics for gas-phase processes and basic theoretical frameworks for elementary processes. It features many useful problems, making it a valuable resource for students and researchers in molecular spectroscopy/molecular physics and chemical physics/physical chemistry. .

ISBN: 9783030655709

Standard No.: 10.1007/978-3-030-65570-9doiSubjects--Topical Terms:

596866
Atoms.

LC Class. No.: QC170-197

Dewey Class. No.: 539

Gas-Phase Photoprocesses
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505 0 $a 1. Introduction -- 2. General Kinetic Rules for Chemical Reactions, Collisional, and Intramolecular Processes -- 2.1. Rates of Reaction, Collisional, and Spontaneous Processes. Rate Constant. Kinetic Types of Simple Processes -- 2.2. Chemical Equilibrium. Equilibrium Constant -- 2.3. Arrhenius equation -- 2.4. Complex Reactions -- 2.4.1. Consecutive Reactions. Steady-state Method -- Problems -- References -- 3. Theory of Elementary Processes -- 3.1. Cross-sections, Rate Constants, and Probabilities of Elementary processes -- 3.2. The detailed balance principle. Adiabatic approximations. Potential Energy Curves and Surfaces -- 3.3. Descriptions of Collisional Processes using Potential Energy Curves and Surfaces. Intramolecular Vibrational Relaxation in Polyatomic Molecules -- 3.4. Non-adiabatic Transitions. Perturbation theory. Probabilities of Adiabatic and Non-adiabatic Transitions -- 3.5. Intermolecular Interactions. Types of Intermolecular Interactions -- 3.6. Semiempirical Model Potentials -- Problems -- References -- 4. Photoprocesses -- 4.1. Primary and Secondary Gas-Phase Photoprocesses. Quantum Yields of the Gas-Phase Photoprocesses -- 4.2. Optical Transitions. Selection Rules for Optical Transitions. Spin-Orbit Coupling and Spin-Forbidden Radiative Transitions -- 4.3. Absorption. Absorption Band Intensities. Einstein Transition Probabilities. Oscillator Strength. Transition Dipole Moment. Beer-Lambert Law -- 4.4. Franck-Condon Principle for Bound-bound and Bound-free Optical Transitions -- 4.5. Luminescence. Radiative lifetime. The Relationship between Einstein Transition Probabilities and Transition Dipole Moment -- 4.6. Intramolecular Perturbations. Selection Rules and Franck-Condon Principle for Intramolecular Perturbation. Perturbations between Bound States. Abnormally long Radiative Lifetime -- 4.7. Spontaneous Predissociation of Two-, Tri- and Polyatomic Molecules. Classes of Predissociation Processes -- 4.8. Photodecay of Two-, Tri- and Polyatomic Molecules. Long-lived States of Polyatomic Molecules -- References -- 5. Energy Transfer in Collisions -- 5.1. Translational-Translational Energy Transfer (T-T exchange) -- 5.2. Rotational-Translational Energy Transfer (R-T exchange) -- 5.3. Vibrational Energy Transfer (V-T, V-R,T Processes) -- 5.4. Non-adiabatic Coupling and Vibrational Energy Transfer -- 5.5. Collision-Induced Non-Adiabatic Transitions -- 5.6. Collision-Induced Predissociation -- 5.7. Vibrational Relaxation via Several Electronic States -- 5.8. Electronic Deactivation -- Problems -- References -- 6. Weakly-Bound Complexes -- 6.1. Hydrogen- and Halogen-Bond Complexes -- 6.2. Van der Waals Complexes. 6.3. Rare gas-halogen Molecule Clusters -- References -- 7. Termolecular reactions -- 7.1. Termolecular recombination. Mechanism of Termolecular Recombination -- References -- 8. Chemiluminescence -- 8.1. Classes of Chemiluminescence Processes.Gas-P Rate Constants -- 8.2. General Rules of Radiative Recombination -- References -- Solution of Problems -- Index.
520 $a This book provides details of the basic frameworks and characteristics of processes occurring in electronically excited states of small molecules, complexes, and clusters. It discusses the perturbations in electronically excited valence states of molecules induced by intramolecular interaction and intermolecular interactions, which occur in collisions and optically populated, weakly bound complexes. Further, it describes the kinetics and mechanisms of photoprocesses in simple molecules and recombination accompanied by radiation. The book also offers information on general kinetics for gas-phase processes and basic theoretical frameworks for elementary processes. It features many useful problems, making it a valuable resource for students and researchers in molecular spectroscopy/molecular physics and chemical physics/physical chemistry. .
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