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 #  AuthorTitleAccn#YearItem Type Claims
1 N. Akhmediev (ed.) Dissipative solitons I00371 2005 eBook  
2 A. Tramer Energy dissipation in molecular systems I00311 2005 eBook  
3 Hrachya Nersisyan Interactions between charged particles in a magnetic field I00089 2007 eBook  
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TitleDissipative solitons
Author(s)N. Akhmediev (ed.);A. Ankiewicz (ed.)
PublicationBerlin, Springer, 2005.
Description1 online resource (xvii, 448 p.) : ill
NotesIncludes bibliographical references and index
Keyword(s)1. Applied Optics, Optoelectronics, Optical Devices 2. Dissipation d'�energie 3. EBOOK 4. EBOOK - SPRINGER 5. Energy dissipation 6. ENGINEERING 7. LASER PHYSICS 8. Laser Technology and Physics, Photonics 9. PHYSICAL OPTICS 10. PHYSICS 11. Physics and Applied Physics in Engineering 12. QUANTUM OPTICS 13. Quantum Optics, Quantum Electronics, Nonlinear Optics 14. SOLITONS
Item TypeeBook
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Accession#  Call#StatusIssued ToReturn Due On Physical Location
I00371     On Shelf    

2.     
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TitleEnergy dissipation in molecular systems
Author(s)A. Tramer;Ch. Jungen;F. Lahmani
PublicationBerlin, Springer, 2005.
Description1 online resource (ix, 202 p.) : ill
Abstract Note"This book analyses recent experimental data on the dissipation of energy injected into molecular systems by radiation, using the theory of radiationless transitions as the basis. Intramolecular vibrational redistribution and electronic relaxation in isolated molecules (including vibrational and electronic predissociation) as well as environment-induced effects (vibrational and rotational relaxation, collision-induced electronic relaxation) are considered as particular cases of general rules. Primary photochemical processes (isomerization, electron and proton or hydrogen-atom transfer) are treated in the same way. The sequential character of relaxation processes and the dependence of their rates on the energy (momentum) gap are emphasized. Only a basic knowledge of quantum mechanics and spectroscopy is required of the reader and calculations are reduced to a strict minimum, making the book accessible to students."--Jacket
NotesIncludes bibliographical references (p. [185]-200) and index
Keyword(s)1. Atoms, Molecules, Clusters and Plasmas 2. Dissipation d'�energie 3. EBOOK 4. EBOOK - SPRINGER 5. Energy dissipation 6. Estrutura molecular (qu�imica te�orica) 7. Mechanics, Fluids, Thermodynamics 8. Molecular theory 9. PHYSICAL CHEMISTRY 10. Physics and Applied Physics in Engineering 11. SCIENCE 12. Th�eorie mol�eculaire
Item TypeeBook
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I00311     On Shelf    

3.    
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TitleInteractions between charged particles in a magnetic field : a theoretical approach to ion stopping in magnetized plasmas
Author(s)Hrachya Nersisyan;Christian Toepffer;G�unter Zwicknagel
PublicationBerlin, Springer, 2007.
Description1 online resource (xi, 187 p.) : ill
Abstract NoteFocusses on the influence of a strong magnetic field on the interactions between charged particles in a many-body system. This work investigates two complementary approaches, the binary collision model and the dielectric theory in both analytical and numerical frameworks
Contents NoteFront Matter; Introduction; Previous Work, Status and Overview; Binary Collision Model; Dielectric Theory; Quantum Theory of SP in Magnetized Plasmas; Applications and Illustrating Examples; Summary and Conclusion; Back Matter
NotesIncludes bibliographical references (p. [177]-181)
Keyword(s)1. Champs magn�etiques 2. Dissipation d'�energie 3. EBOOK 4. EBOOK - SPRINGER 5. Energy dissipation 6. MAGNETIC FIELDS 7. Particle range (Nuclear physics) 8. Particules (Physique nucl�eaire) 9. Plasma (Gaz ionisies) 10. PLASMA (IONIZED GASES) 11. Pouvoir d'arr�et (Physique nucl�eaire) 12. Stopping power (Nuclear physics) 13. TECHNOLOGY & ENGINEERING
Item TypeeBook
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Accession#  Call#StatusIssued ToReturn Due On Physical Location
I00089     On Shelf    

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