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Energy Dissipation in Molecular Systems

Energy Dissipation in Molecular Systems analyzes experimental data on the redistribution and dissipation of energy injected into molecular systems by radiation or charged particles. These processes, competing with such practically important relaxation channels as chemical reaction or stimulated emis...

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Bibliographic Details
Main Authors: Tramer, André, Jungen, Christian (Author), Lahmani, Françoise (Author)
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 2005, 2005
Edition:1st ed. 2005
Subjects:
Atoms
Physical Chemistry
Classical And Continuum Physics
Engineering
Atomic, Molecular And Chemical Physics
Physics
Technology And Engineering
Molecules
Online Access:
Collection: Springer eBooks 2005- - Collection details see MPG.ReNa
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505 0 |a The Basic Notions -- Experimental Techniques -- Intramolecular Vibrational Redistribution -- Vibrational and Rotational Relaxation -- Electronic Relaxation -- The Electron and Proton Transfer -- Postface 
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653 |a Physics 
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700 1 |a Lahmani, Françoise  |e [author] 
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520 |a Energy Dissipation in Molecular Systems analyzes experimental data on the redistribution and dissipation of energy injected into molecular systems by radiation or charged particles. These processes, competing with such practically important relaxation channels as chemical reaction or stimulated emission (laser action), are the primary focus in this monograph. Among other topics, the book treats vibrational redistribution and electronic relaxation in isolated molecules and the effects of inter-molecular interactions (collisions, complex formation, solvent effects) on the relaxation paths. Primary photo-chemical processes (such as isomerization, proton or hydrogen-atom transfer, electron transfer and ionization) are also treated as particular cases of vibrational or electronic relaxation. Only a basic knowledge of quantum mechanics and spectroscopy is assumed and calculations are kept to a strict minimum, making the book more accessible to students 

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