Gas phase ion chemistry. Volume 3, Ions and light / edited by Michael T. Bowers ; contributors, J.L. Beauchamp [and nineteen others]

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Bibliographic Details
Online Access:	Full Text (via ScienceDirect)
Other Authors:	Bowers, M. T. (Michael T.) (Editor), Beauchamp, J. L. (Contributor)
Format:	eBook
Language:	English
Published:	Orlando, Florida : Academic Press, Inc., 1984.
Subjects:	Chemical reaction, Conditions and laws of. Ionized gases.

Table of Contents:

Front Cover; Ions and Light; Copyright Page; Table of Contents; Contributors; Preface; Contents of Previous Volumes; Chapter 17. Flowing afterglow studies of ion reaction dynamics using infrared chemiluminescence and laser-induced fluorescence; I. INTRODUCTION; II. SURVEY OF OPTICAL TECHNIQUES; III. SURVEY OF THE FLOWING AFTERGLOW METHOD; IV. RECENT RESULTS OF PRODUCT STATE DISTRIBUTIONS OF THERMAL ENERGY ION-MOLECULE REACTIONS; V. CONCLUSION; ACKNOWLEDGMENTS; REFERENCES; Chapter 18. Infrared photochemistry of gas phase ions; I. INTRODUCTION; II. EXPERIMENTAL METHODS.
III. MULTIPHOTON DISSOCIATION OF IONS WITH LOW-INTENSITY CW INFRARED RADIATIONIV. APPLICATIONS OF MULTIPHOTON DISSOCIATION; V. MULTIPHOTON ELECTRON DETACHMENT (MED) FROM NEGATIVE IONS; VI. SELECTIVE ENHANCEMENT OF BIMOLECULAR REACTION RATES USING LOW-INTENSITY CW LASER RADIATION; VII. PROGNOSIS; REFERENCES; Chapter 19. Photodissociation in beams: organic ions; I. INTRODUCTION; II. EXPERIMENTAL TECHNIQUES; III. DISTINGUISHING ISOMERIC IONS; IV. THE EFFECT ON COMPETING DISSOCIATION REACTIONS OF CHANGING THE PHOTOEXCITATION ENERGY; V. TRANSLATIONAL ENERGY RELEASED AND THE QET.
VI. EFFECT OF SOURCE TEMPERATURE ON THE PHOTODISSOCIATION OF IONSVII. PHOTODISSOCIATION OF IONS IN LOW-ENERGY BEAMS WITHIN A SECTORED MASS SPECTROMETER; ACKNOWLEDGMENTS; REFERENCES; Chapter 20. Photodissociation in the ICR ion trap; I. INTRODUCTION; II. METHODS; III. SPECTROSCOPY AND ION STRUCTURES; IV. REARRANGEMENTS; V. FRAGMENTATION PRODUCTS; VI. RELAXATION STUDIES USING TWO-PHOTON DISSOCIATION; VII. TWO-PHOTON KINETICS AND REARRANGEMENT PROCESSES; VIII. IR-VISIBLE TWO-LASER PHOTODISSOCIATION; ACKNOWLEDGMENTS; REFERENCES; Chapter 21. Electron photodetachment from gas phase molecular anions.
I. INTRODUCTION AND SCOPEII. OPTICAL PHOTODETACHMENT; III. INFRARED MULTIPHOTON-INDUCED ELECTRON DETACHMENT; IV. SUMMARY OF EXPERIMENTALLY MEASURED MOLECULAR ELECTRON AFFINITIES; V. SUMMARY; ACKNOWLEDGMENTS; REFERENCES; Chapter 22. Photodetachment in negative ion beams; I. INTRODUCTION; II. THRESHOLD PHOTODETACHMENT; III. ULTRAHIGH RESOLUTION PHOTODETACHMENT; IV. PHOTOELECTRON SPECTROSCOPY OF MOLECULAR IONS; V. ATOMIC ELECTRON AFFINITIES; VI. SUMMARY AND CONCLUSIONS; ACKNOWLEDGMENT; REFERENCES; Chapter 23. Electronically chemiluminescent ion-molecule exchange reactions; I. INTRODUCTION.
II. EXPERIMENT AND ANALYSISIII. SELECTED RESULTS; IV. CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES; Chapter 24. The emission of light from excited products of charge exchange reactions; I. INTRODUCTION; II. EXPERIMENTAL CONSIDERATIONS; III. ION-ATOM SYSTEMS; IV. ION-MOLECULE SYSTEMS; V. SUMMARY; ACKNOWLEDGMENTS; REFERENCES; Chapter 25. Relaxation dynamics of open-shell cations studied by photoelectron-photon coincidence spectroscopy; I. INTRODUCTION; II. PHOTOELECTRON-PHOTON COINCIDENCE EXPERIMENT; III. INTRAMOLECULAR RELAXATION OF OPEN-SHELL CATIONS: MODEL THEORIES; IV. EXAMPLES AND APPLICATIONS.

Gas phase ion chemistry. Volume 3, Ions and light / edited by Michael T. Bowers ; contributors, J.L. Beauchamp [and nineteen others]

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