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402-0442-00L 10 Credits DR , MSC D-MATL , D-PHYS , D-ITET

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Quantum Optics

Lecturers & Examiners: Prof. Dr. Atac Imamoglu

VVZ CR 4.6

Last Updated: 2026-02-05 16:30:04

Abstract

This course gives an introduction to the fundamental concepts of Quantum Optics and will highlight state-of-the-art developments in this rapidly evolving discipline. The topics covered include the quantum nature of light, semi-classical and quantum mechanical description of light-matter interaction, laser manipulation of atoms and ions, optomechanics and quantum computation.

Objective

The course aims to provide the knowledge necessary for pursuing research in the field of Quantum Optics. Fundamental concepts and techniques of Quantum Optics will be linked to modern experimental research. During the course the students should acquire the capability to understand currently published research in the field.

Content

This course gives an introduction to the fundamental concepts of Quantum Optics and will highlight state-of-the-art developments in this rapidly evolving discipline. The topics that are covered include: - coherence properties of light - quantum nature of light: statistics and non-classical states of light - light matter interaction: density matrix formalism and Bloch equations - quantum description of light matter interaction: the Jaynes-Cummings model, photon blockade - laser manipulation of atoms and ions: laser cooling and trapping, atom interferometry, - further topics: Rydberg atoms, optomechanics, quantum computing, complex quantum systems.

Resources

Lecture Notes

Selected book chapters will be distributed.

Literature

Text-books: G. Grynberg, A. Aspect and C. Fabre, Introduction to Quantum Optics R. Loudon, The Quantum Theory of Light Atomic Physics, Christopher J. Foot Advances in Atomic Physics, Claude Cohen-Tannoudji and David Guéry-Odelin C. Cohen-Tannoudji et al., Atom-Photon-Interactions M. Scully and M.S. Zubairy, Quantum Optics Y. Yamamoto and A. Imamoglu, Mesoscopic Quantum Optics

Learning Materials (Links)

Moodle course
Moodle-Kurs / Moodle course

General Information

Language: English
Levels: DR , MSC
Frequency: Yearly recurring

Examination

Type: session examination
Mode: written 120 minutes
Aids: None

Course Components

Type	Title	Time & Place	Hours
lecture	Quantum Optics	Wed 09:45-11:30 (HPV G 4) Fri 08:45-09:30 (HPV G 4)	3 h weekly
exercise	Quantum Optics Exercises start in the second week of the semester.	Mon 13:45-15:30 (HIT H 51) Tue 07:45-09:30 (HIT H 51) Tue 09:45-11:30 (HIT F 32) Tue 09:45-11:30 (HIT H 51) Tue 09:45-11:30 (HIT J 51) Tue 09:45-11:30 (HIT J 52) Tue 09:45-11:30 (HIT K 51)	2 h weekly

Offered In

Physics Master
- Core Courses (One Core Course from Physics Bachelor (BSc Regulation 2021) is eligible as an elective. To assign a category, leave the option "no category" and contact the Study Administration ( ) once you have received the credits.)
  - Core Courses: Experimental Physics
Doctorate Materials Science (Further information at: )
- Subject Specialisation
  - Science & Technology of the Small (MaP Doctoral School)
Doctorate Physics (More Information at: )
- Subject Specialisation (Please note that this is an INCOMPLETE list of courses.)
Quantum Engineering Master
- Core Courses (A minimum of 24 credits must be obtained from core courses during the MSc QE, course selection is subject to the tutor's agreement.)
  - Physics Core Courses (These core courses target students with an engineering background and all those who need additional physics foundations.)