After successful completion of the course, students are able to understand the interaction between light and matter on the level of individual photons and atoms. Specifically, the students will acquire the necessary theoretical skills for

(1) describing semi-classical light-matter interactions using optical Bloch equations,
(2) quantizing the electromagnetic radiation field,
(3) solving the Jaynes-Cummings-model of cavity QED,
(4) modelling spontaneous decay,
(5) explaining the resonance fluorescence spectrum of atoms,
(6) describing STIRAP Processes in three-level systems.

Topics:

(1) semiclassical description of light-atom interactions and optical Bloch equations; (2) quantization of the electromagnetic field; (3) cavity QED and the Jaynes-Cummings model; (4) Wigner-Weisskopf theory of spontaneous emission; (5) resonance fluorescence and the Mollow-triplet; (6) interference effects in three-level-systems

Examples.

The course will be held in a "distance learning" mode using the video conferencing software "Zoom".

The first lecture will take place on Wednesday, 13.10.2021 at 10:00 am sharp, where all further dates for the individual lectures will be discussed.

All information about the course, the links to the Zoom meetings, etc. will be announced via TISS. To receive this information, please make sure that you are registered for the course.

Oral exam at the end of the lecture.

Register to get access to lecture and seminar material.

S. Haroche and J.-M. Raimond, "Exploring the Quantum"
D.F. Walls and G. Milburn, "Quantum Optics"
R. Loudons "The quantum theory of Light"
M. Scully and M. Zubrairy"Quantum Optics"

Quantum Mechanics 1, Atomic, Nuclear, and Particle Physics 1