Collisional line broadening and shifting of atmospheric gases : a practical guide for line shape modeling by current semi-classical approaches /

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This book presents a comprehensive overview of the modern theory of spectral line broadening and shifting by pressure of atmospheric gases. It describes current semi-classical methods for calculating vibrotational line widths and shifts, including very recent modifications and new developments reali...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Buldyreva, Jeanna
Otros Autores: Lavrentieva, Nina, Starikov, Vitaly
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Hackensack, N.J. : Imperial College Press ; World Scientific (distributor), ©2011.
Temas:
Spectral line broadening.
Raies spectrales > Élargissement.
NATURE > Sky Observation.
Spectral line broadening
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Basic definitions. 1.1. Shape and parameters of a spectral line. 1.2. Principle line-broadening mechanisms and model profiles. 1.3. Broadening, shifting and narrowing coefficients. 1.4. Line interference
  • 2. Semi-classical calculation of pressure-broadened line widths and pressure-induced line shifts. 2.1. Quantum system of two interacting molecules. 2.2. Spectral function. 2.3. General expressions for line half-width and shift calculation. 2.4. Anderson-Tsao-Curnutte theory. 2.5. Interaction potential and irreducible tensors formalism. 2.6. Interruption function for the long-range intermolecular potential. 2.7. Resonance functions in the straight-line trajectory approximation. 2.8. Advanced semi-classical methods for line-broadening calculation. 2.9. Parabolic trajectory approximation. 2.10. Resonance functions within the exact trajectory model. 2.11. Approximation for the real parts of exact-trajectory resonance functions. 2.12. Approximation for the imaginary parts of exact-trajectory resonance functions. 2.13. Short-range forces and trajectory effects. 2.14. Robert and Bonamy formalism with exact trajectories
  • 3. Collisional broadening of water vapour lines. 3.1. Effective operators of physical quantities for X[symbol]Y molecule and vibrotational wave functions for water vapour molecule. 3.2. Self-broadening of H[symbol]O lines. 3.3. Analytical representation for self-broadening parameters of water vapour. 3.4. Semi-empirical approach to calculation of water vapour line widths and shifts. 3.5. Broadening of water vapour lines by nitrogen, oxygen and carbon dioxide. 3.6. Interference of water vapour spectral lines. 3.7. Broadening of water vapour lines by hydrogen and rare gases. 3.8. Tabulation of H[symbol]O line-broadening coefficients for high temperatures
  • 4. Pressure broadening and shifting of vibrotational lines of atmospheric gases. 4.1. Vibrotational lines of asymmetric X[symbol]Y molecules. 4.2. Vibrotational lines of ethylene. 4.3. Vibrotational lines of symmetric tops. 4.4. Broadening coefficients of vibrotational lines of methane. 4.5. Linear molecules. 4.6. Diatomic molecules.

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