Solid-state spectroscopy : an introduction /

Solid-state spectroscopy : an introduction /

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Numerous techniques using electromagnetic radiation or charged neutral particles have been invented and refined to provide more detailed information on solids. This book elucidates topics in this field, including lasers and synchrotrons, Fourier transform spectroscopy, pulsed and magnetic NMR techni...

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Bibliographic Details
Main Author: Kuzmany, H (Hans), 1940-
Format: Book
Language:English
Published: Berlin ; New York : Springer Verlag, c1998
Berlin ; New York : Springer, c1998
New York : [1998], ©1998
New York : c1998
Berlin ; New York : [1998]
Subjects:
Materials > Spectra
Solids > Spectra
Spectrum analysis
Materials
Table of Contents:
  • 1. Introduction
  • 2. Electromagnetic Radiation
  • 3. Light Sources with General Application
  • 4. Spectral Analysis of Light
  • 5. Detection of Electromagnetic Radiation
  • 6. The Dielectric Function
  • 7. Spectroscopy in the Visible and Near-Visible Spectral Range
  • 8. Symmetry and Selection Rules
  • 9. Light-Scattering Spectroscopy
  • 10. Infrared Spectroscopy
  • 11. Magnetic Resonance Spectroscopy
  • 12. Ultraviolet and X-Ray Spectroscopy
  • 13. Spectroscopy with [gamma] Rays
  • 14. Generalized Dielectric Function
  • 15. Spectroscopy with Electrons
  • 16. Spectroscopy with Positrons and Muons
  • 17. Neutron Scattering
  • 18. Spectroscopy with Atoms and Ions
  • 1 Introduction
  • 2. Electromagnetic Radiation
  • 3. Light Sources with General Application
  • 4. Spectral Analysis of Light
  • 5. Detection of Electromagnetic Radiation
  • 6. Dielectric Function
  • 7. Spectroscopy in the Visible and Near-Visible Spectral Range
  • 8. Symmetry and Selection Rules
  • 9. Light-Scattering Spectroscopy
  • 10. Infrared Spectroscopy
  • 11. Magnetic Resonance Spectroscopy
  • 12. Ultraviolet and X-Ray Spectroscopy
  • 13. Spectroscopy with [gamma] Rays
  • 14. Generalized Dielectric Function
  • 15. Spectroscopy with Electrons
  • 16. Spectroscopy with Positrons and Muons
  • 17. Neutron Scattering
  • 18. Spectroscopy with Atoms and Ions.
  • 1 Introduction
  • 2. Electromagnetic Radiation
  • 3. Light Sources with General Application
  • 4. Spectral Analysis of Light
  • 5. Detection of Electromagnetic Radiation
  • 6. The Dielectric Function
  • 7. Spectroscopy in the Visible and Near-Visible Spectral Range
  • 8. Symmetry and Selection Rules
  • 9. Light-Scattering Spectroscopy
  • 10. Infrared Spectroscopy
  • 11. Magnetic Resonance Spectroscopy
  • 12. Ultraviolet and X-Ray Spectroscopy
  • 13. Spectroscopy with [gamma] Rays
  • 14. Generalized Dielectric Function
  • 15. Spectroscopy with Electrons
  • 16. Spectroscopy with Positrons and Muons
  • 17. Neutron Scattering
  • 18. Spectroscopy with Atoms and Ions.

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