"A cohesive text for engineers and scientists utilising laser diagnostics and wishing to expand their understanding of atomic and molecular spectroscopy. Contains the detailed information required to fully understand the formulae and computer codes used in spectroscopic data analysis across mechanical, aerospace, and chemical engineering"--
"A cohesive text for engineers and scientists utilising laser diagnostics and wishing to expand their understanding of atomic and molecular spectroscopy. Contains the detailed information required to fully understand the formulae and computer codes used in spectroscopic data analysis across mechanical, aerospace, and chemical engineering"--Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Professor Robert P. Lucht is the Bailey Distinguished Professor at Purdue University. His research projects range from the physics of emerging laser techniques to applications of laser diagnostics in practical combustion devices such as gas turbines. Prof. Lucht is a Fellow of Optica, AIAA, ASME, and the Combustion Institute. He also received the AIAA Aerodynamic Measurement Technology Award.
Inhaltsangabe
1. Introduction: classical theory of electric-dipole radiative interactions; 2. Atomic structure and the quantum mechanics of angular momentum; 3. Structure of diatomic molecules; 4. Quantum mechanical analysis of the interaction of laser radiation with electric-dipole resonances; 5. Quantum mechanical analysis of single-photon electric-dipole resonances for diatomic molecules; 6. Absorption and emission spectroscopy; 7. Raman spectroscopy; 8. Coherent anti-stokes Raman scattering (cars) spectroscopy; Appendix 1. Spherical harmonics and radial wavefunctions for one-electron atoms; Appendix 2. Clebsch-Gordan coefficients, dipole moments, and spontaneous emission; Appendix 3. Properties and values for selected 3J symbols; Appendix 4. Properties and values for selected 6J symbols; Appendix 5. Allowed ls coupling terms for equivalent electrons; Appendix 6. Derivation of the higher order density matrix elements for doublet and triplet electronic levels; Appendix 7. Einstein coefficients for spontaneous emission for the x2 -a2 + (0,0) bands of oh and no and the x3 - a3 (0,0) band of NH; Appendix 8. Effect of hyperfine splitting on radiative transition rates; Appendix 9. Voigt function values; references; Index.
1. Introduction: classical theory of electric-dipole radiative interactions; 2. Atomic structure and the quantum mechanics of angular momentum; 3. Structure of diatomic molecules; 4. Quantum mechanical analysis of the interaction of laser radiation with electric-dipole resonances; 5. Quantum mechanical analysis of single-photon electric-dipole resonances for diatomic molecules; 6. Absorption and emission spectroscopy; 7. Raman spectroscopy; 8. Coherent anti-stokes Raman scattering (cars) spectroscopy; Appendix 1. Spherical harmonics and radial wavefunctions for one-electron atoms; Appendix 2. Clebsch-Gordan coefficients, dipole moments, and spontaneous emission; Appendix 3. Properties and values for selected 3J symbols; Appendix 4. Properties and values for selected 6J symbols; Appendix 5. Allowed ls coupling terms for equivalent electrons; Appendix 6. Derivation of the higher order density matrix elements for doublet and triplet electronic levels; Appendix 7. Einstein coefficients for spontaneous emission for the x2 -a2 + (0,0) bands of oh and no and the x3 - a3 (0,0) band of NH; Appendix 8. Effect of hyperfine splitting on radiative transition rates; Appendix 9. Voigt function values; references; Index.
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