High resolution spectroscopy /

High Resolution Spectroscopy discusses the underlying concepts in the different branches of spectroscopy, especially in high resolution spectroscopy. The coverage of the book includes basic principles such as the quantization of energy, as well as the interaction of electromagnetic radiation with at...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Hollas, J. Michael (John Michael)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London ; Boston : Butterworths, 1982.
Temas:
High resolution spectroscopy.
Spectroscopie �a haute r�esolution.
High resolution spectroscopy
Spektroskopie
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; High Resolution Spectroscopy; Copyright Page; Preface; Fundamental constants; Table of Contents; Chapter 1. Quantization of energy; 1.1 Historical evolution of quantum theory; 1.2 The Schr�odinger equation; 1.3 Some important solutions of the Schr�odinger equation; Bibliography; Chapter 2. Interaction of electromagnetic radiation with atoms and molecules; 2.1 Nature of electromagnetic radiation; 2.2 Absorption and emission processes; 2.3 Line widths of transitions; Bibliography; Chapter 3. General experimental methods; 3.1 Regions of the electromagnetic spectrum
  • 3.2 General features of instrumentation3.3 Microwave and millimetre wave spectroscopy; 3.4 Lamb dip spectroscopy; 3.5 Prisms, diffraction gratings and interferometers as dispersing elements; 3.6 Far infrared spectroscopy; 3.7 Near infrared spectroscopy; 3.8 Visible and near ultraviolet spectroscopy; 3.9 Far (vacuum) ultraviolet spectroscopy; 3.10 Low and high resolution spectroscopy; Bibliography; Chapter 4. Rotational spectroscopy; 4.1 Classification into linear molecules, symmetric rotors, spherical rotors and asymmetric rotors
  • 4.2 Pure rotational infrared, millimetre wave and microwave spectra of diatomic and linear polyatomic molecules4.3 Pure rotational infrared, millimetre wave and microwave spectra of symmetric rotor molecules; 4.4 Nuclear spin statistical weights and their effect on intensities; 4.5 Pure rotational infrared, millimetre wave and microwave spectra of asymmetric rotor molecules; 4.6 Pure rotational infrared, millimetre wave and microwave spectra of spherical rotor molecules; 4.7 Interstellar molecules detected by their pure rotation spectra; 4.8 Pure rotational Raman spectroscopy
  • 4.9 Structure determination from rotational constants4.10 Rotational spectroscopy of weakly bound complexes; Bibliography; Chapter 5. Vibrational spectroscopy; 5.1 Diatomic molecules; 5.2 Polyatomic molecules; Bibliography; Chapter 6. Electronic spectroscopy; 6.1 Electronic spectroscopy of atoms; 6.2 Electronic spectroscopy of diatomic molecules; 6.3 Electronic spectroscopy of polyatomic molecules; Bibliography; Chapter 7. Photoelectron spectroscopy; 7.1 Introduction; 7.2 Experimental methods; 7.3 Ionization processes in photoelectron spectra; 7.4 Koopmans' theorem
  • 7.5 Photoelectron spectra and their interpretationBibliography; Chapter 8. Lasers and laser spectroscopy; 8.1 Lasers and masers; 8.2 Laser spectroscopy; Bibliography; Appendix : Character tables; References; Index of atoms and molecules; Subject index

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