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529-0445-00L 7 Credits MSC D-CHAB
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Advanced Optics and Spectroscopy

Lecturers & Examiners: Prof. Dr. Vahid Sandoghdar
VVZ CR n/a

Last Updated: 2026-02-05 15:13:10

Abstract

Semiclassical and quantum mechanical treatment of light-matter interaction; Quantized fields; Statistical properties of radiation; Theoretical and experimental elements of laser spectroscopy.

Objective

The student will be introduced to concepts of light-matter interaction with an emphsis on laser spectroscopy. The course will pursue a balance between the semiclassical and quantum mechanical descriptions of the phenomena at hand with an emphasis on direct links to laboratory concerns.

Content

Semiclassical and quantum mechanical treatment of light-matter interaction: absorption and emission of light, transition probabilities, optical Bloch equations, density matrix formulation, Rabi oscillations, resonance fluorescence and light scattering; Quantized fields; Statistical properties of radiation A collection of modern experimental advances: single molecule spectroscpy, single photon sources, interaction of emitters and nanoparticles, modification of spontaneous emission

Resources

Lecture Notes

availabe

Literature

The Quantum Theory of Light by R. Loudon (Oxford University Press) Photon-Atom Interactions by M. Weissbluth (Academic Press) Laser Spectroscopy by W. Demtroeder (Springer_Verlag)

General Information

Language
English
Levels
MSC
Frequency
Yearly recurring

Examination

Type
session examination
Mode
oral 30 minutes

Course Components

Type Title Time & Place Hours
lecture with exercise Advanced Optics and Spectroscopy
  • Tue 13:45-16:30 (HCI D 4)
  • Tue 13:45-16:30 (HCI J 243)
3 h weekly

Offered In