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Optical spectroscopy (UGA) - WPMBOSP9

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  • Number of hours

    • Lectures : 11.0
    • Tutorials : 11.0
    • Laboratory works : 0
    • Projects : 0
    • Internship : 0
    ECTS : 3.0

Goals

Optical spectroscopy concerns itself with the interaction between light and matter. In this lecture we present a theoretical framework to discuss the absorption, emission, and luminescence properties of atomic and molecular systems. Experimental techniques will be discussed, including modern and state-of-the-art techniques used in the environmental (e.g., infrared trace gas detection) and life sciences (such as Raman non-linear spectroscopies).

Contact Franz BRUCKERT

Content

Chapter 1-2 (Light, A Short History)

Chapter 3 (Interaction of EM Radiation with Atoms and Molecules)

Chapter 4 (Infrared Molecular Spectroscopy)

Chapter 5 (Raman Spectroscopy)

Chapter 6 (Electronic Spectroscopy)

Chapter 7 (Photoelectron Spectroscopy)

Chapter 8 (Laser Induced Fluorescence)

Chapter 9 (Solid State Spectroscopy)

Chapter 10 (Detection Techniques)

Chapter 11 (Frequency Comb Spectroscopy)



Prerequisites

Tests

Written exam (2h)



cf règlement d'examen CMCL ou Nanosciences

Additional Information

Curriculum->Master->Semester 9
Curriculum->MASTER Nano Structural Biology->Semester 9

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Date of update October 21, 2019

Grenoble INP Institut d'ingénierie Univ. Grenoble Alpes