Spectroscopy

Be able to:
- describe the spectroscopies used in industry
- explain their theoretical and experimental bases
- state their specific features, potential and scope of use
- choose and develop the best spectroscopic analysis method to solve a given problem.

- Quantum mechanics course
- Knowledge of optics and interferometry
- Notions of group theory

Introduction
Industrial context
Radiation, matter and interactions - General
Foundations of optical spectroscopies, magnetic resonance spectroscopies (NMR, EPR), photoelectron spectroscopies (UPS, XPS) and related spectroscopies (AUGER, X-ray fluorescence).
Principles, technologies and industrial applications of optical spectroscopies (in addition to practical work): atomic absorption, atomic emission, UV-visible molecular absorption spectroscopy, fluorescence and phosphorescence emission spectroscopy, infrared molecular absorption spectroscopy, Raman scattering.
Conclusion

Physical and Analytical Chemistry

Spectroscopy, J. M. HOLLAS, Ed. DUNOD, PARIS (2003)
Analyse chimique, méthodes et techniques instrumentales modernes, F. ROUESSAC and A. ROUESSAC, Ed. MASSON, PARIS (1992)