Symmetry of Intramolecular Quantum Dynamics /

Symmetry of Intramolecular Quantum Dynamics / / Alexander V. Burenin.

The main goal of this book is to give a systematic description of intramolecular quantum dynamics on the basis of only the symmetry principles. In this respect, the book has no analogs in the world literature. This approach does not introduce a configuration space of the molecular system in explicit...

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Bibliographic Details
Superior document:Title is part of eBook package: De Gruyter DG Studies in Mathematical Physics eBook-Package
VerfasserIn:
Burenin, Alexander V.,
MitwirkendeR:
Krayev, Alexey Vissarionovich,
Place / Publishing House:Berlin ;, Boston : : De Gruyter, , [2012]
©2013
Year of Publication:2012
Language:English
Series:De Gruyter Studies in Mathematical Physics , 11
Online Access:
Physical Description:1 online resource (430 p.)
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Table of Contents:
  • Frontmatter
  • Preface
  • Contents
  • Part I. Foundations of the mathematical apparatus
  • Chapter 1. Basic concepts of group theory
  • Chapter 2. Basic concepts of group representation theory
  • Chapter 3. The permutation group
  • Chapter 4. Continuous groups
  • Chapter 5. Point groups
  • Chapter 6. Dynamic groups
  • Part II. Qualitative intramolecular quantum dynamics
  • Chapter 7. The philosophy of using the symmetry properties of internal dynamics
  • Chapter 8. Internal dynamics of rigid molecules
  • Chapter 9. Molecules with torsional transitions of the exchange type
  • Chapter 10. Molecules with pseudorotations of the exchange type
  • Chapter 11. Molecules with transitions of the nonexchange type between equivalent configurations
  • Chapter 12. On the meaning of the Born–Oppenheimer Approximation
  • Chapter 13. Molecules with transitions of the exchange and nonexchange types between equivalent configurations
  • Chapter 14. On the construction of extended point groups
  • Chapter 15. Nonrigid molecular systems with continuous axial symmetry groups
  • Chapter 16. Molecules with different isomeric forms in a single electronic state
  • Chapter 17. Molecules with different isomeric forms in different electronic states
  • Chapter 18. Algebraic models of the global description of molecular spectrum
  • Chapter 19. Description of the Zeeman and Stark effects
  • Chapter 20. Additional remarks on describing intramolecular dynamics
  • Conclusion
  • Appendices
  • Bibliography
  • Index

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