# Quantum optics (Wintersemester 2016)

### From Institute for Theoretical Physics II / University of Erlangen-Nuremberg

Revision as of 19:06, 24 February 2017 by AlexanderFriedenberger (Talk | contribs)

- Docent: Eric Lutz
- Lecture: Wednesday 08:00 to 10:00 in lecture hall F
- Exercises: Wednesday 16:00 to 18:00 in SR 02.729
- Exam: Wednesday 15.02.2017 10:00 to 12:00 in lecture hall E
- Exam review: Wednesday 01.03.2017 from 10:00 to 12:00 in Room 02.771.

The lecture is intended as an introduction to the concepts and methods of
theoretical quantum optics. It will cover the following topics:
Quantization of the electromagnetic field - Quantum states of light - Casimir effect -
Coherence properties - Photon statistics - Atom-photon interaction - Laser cooling of atoms - Open quantum systems - Decoherence. It will strongly emphasize the connection between theory and experiment and discuss recent
literature.

## Exercise sheets

- Worksheet 1 (PDF)
- Worksheet 2 (PDF)
- Worksheet 3 (PDF)
- Worksheet 4 (PDF)
- Worksheet 5 (PDF)
- Worksheet 6 (PDF)
- Worksheet 7 (PDF)
- Worksheet 8 (PDF)
- Worksheet 9 (PDF)
- Worksheet 10 (PDF)
- Worksheet 11 (PDF)
- Worksheet 12 (PDF)
- Worksheet 13 (PDF)

## Books

- M. Fox,
*Quantum optics*(Oxford, 2006) - elementary - C. Gerry and P. Knight,
*Introductory quantum optics*(Cambridge, 2005) - elementary - R. Loudon.
*Quantum theory of light*(Oxford, 2001) - a classic - D. F. Walls and G.J. Millburn,
*Quantum optics*(Springer, 2008) - a classic - L. Mandel and E. Wolf,
*Optical coherence and quantum optics*(Cambridge, 1995) - advanced - W.P. Schleich,
*Quantum optics in phase space*, (Wiley, 2001) - different - M.O. Scully and M.S. Zubairy,
*Quantum optics*(Cambridge, 1997) - different

## Video

Roy Glauber: What is quantum optics?