Quantum Optics WS 2022/23
Lecture WS 2022/23, I. Bloch / S. Fölling
News
- Welcome! If you want to participate in the course, please register via the LSF system.
Time and Place
Monday 12-14 c.t. in N 020 (Geschw. Scholl Platz / Schellingstr)
Wednesday 12-14 c.t. in H 030 (Schellingstr. 4)
Welcome to Quantum Optics I
The course gives an introduction into the field of Quantum optics and is targeted towards Master students in Physics. The lectures are combined with a weekly journal club, where we discuss original publications related to the course. Additional problem sets supplement the course.
Topics
- Semiclassical Light-Atom-Interaction, Optical Bloch Equations
- Quantization of the Electromagnetic Field, (Fock States, Coherent States, Squeezed States)
- Quantized Light-Atom Interaction: Jaynes-Cummings-Model
- Dressed State Picture
- Quantum-Rabi Oscillations
- Cavity Quantum Electrodynamics, Nondestructive Detection of a Photon
- Wigner-Weisskopf-Theory of Spontaneous Emission
- Resonance Fluorescence, Mollow Triplett
- Three Level Systems, STIRAP, EIT, LWI
- Classical Coherence Theory
- Correlations and Photon Statistics
- Spatial and Temporal Coherence
- Intensity Fluctuations, Hanbury Brown & Twiss Experiment
- Entanglement, EPR Experiments and Bell's Inequalities
- Schrödinger Cat States
- Quantum Teleportation
- Laser Cooling of Atoms and Ions
- Basic elements of quantum information processing
- Quantum Cryptography
Prerequisites
Knowledge of quantum mechanics, basic knowledge in atomic physics.