Hofstetter
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Theoretical Quantum Optics SS 10
Lecturer: Prof. Dr. Walter Hofstetter
Course Information
- The course will start on Apr 13, 2010.
- Final exam: Friday Oct 15, 10:00-11:30, Room: Phys. 2.116
Updated version of the problem set 11 is available !!!
Topics
- Quantization of electromagnetic fields and properties of coherent states
- Squeezed states
- Phase space representation
- Wigner function
- Quantum mechanics of open systems
- Lindblad and Fokker-Plank equations
- Quantum Markov-process
- Decoherence and theory of measurement
- Handling quantum information with quantum optical systems
- Cavity QED
- Theory of lasers
- Light forces
- Ultracold atomic gases
Dates and Location
| Dates: | Tuesdays and Thursdays, 14:00 - 16:00 |
|---|---|
| Location: | Phys. 01.114 |
Lecture Notes
| Lecture # | Date | Topic | Script (pdf) |
|---|---|---|---|
| 1 | 13.04 | quantization of the electromagnetic field | lecture1 |
| 2 | 15.04 | thermal and coherent states | lecture2 |
| 3 | 20.04 | squeezed states | lecture3 |
| 4 | 22.04 | the quantum phase | lecture4 |
| 5 | 27.04 | classical coherence | lecture5 |
| 6 | 29.04 | quantum coherence | lecture6 |
| 7 | 04.05 | phase dependent correlations | lecture7 |
| 8 | 06.05 | Beam splitters and interference | lecture8 |
| 9 | 11.05 | the P representation | lecture9 |
| 10 | 18.05 | Q- and Wigner distributions | lecture10 |
| 11 | 20.05 | characteristic functions | lecture11 |
| 12 | 25.05 | dipole hamiltonian and golden rule | lecture12 |
| 13 | 27.05 | spontaneous and stimulated emission | lecture13 |
| 14 | 01.06 | Rabi model and Jaynes-Cummings Hamiltonian | lecture14 |
| 15 | 08.06 | collapse and revival | lecture15 |
| 16 | 10.06 | open quantum systems | lecture16 |
| 17 | 15.06 | dressed states and entanglement | lecture17 |
| 18 | 17.06 | entanglement in the JC model | lecture18 |
| 19 | 22.06 | Kraus representation, depolarization | lecture19 |
| 20 | 24.06 | amplitude damping and optical Bloch equations | lecture20 |
| 21 | 29.06 | the Lindblad equation | lecture21 |
| 22 | 01.07 | damped harmonic oscillator and microscopic derivation | lecture22 |
| 23-24 | 08.07 | dissipative 2-level system | lecture23-24 |
| 25 | 13.07 | quantum Brownian motion and decoherence | lecture25 |
| 26 | 15.07 | trapped ion quantum computation | lecture26 |
Exercises
| Lecture | Date | Topic | Exercise (pdf) |
|---|---|---|---|
| 1 | 13.04 | Displacement operator | set 1 |
| 2 | 20.04 | Squeeze operator | set 2 |
| 3 | 27.04 | Casimir effect | set 3 |
| 4 | 04.05 | Hanbury Brown-Twiss experiment | set 4 |
| 5 | 11.05 | Beam splitter operator | set 5 |
| 6 | 18.05 | Homodyne detection | set 6 |
| 7 | 25.05 | Mandel Q-parameter | set 7 |
| 8 | 01.06 | Driven two-level atom | set 8 |
| 9 | 08.06 | Degenerate Raman scattering | set9 |
| 10 | 15.06 | Two-photon JC model | set10 |
| 11 | 22.06 | Correlations in a separable mixed state | set11 |
| 12 | 29.06 | superposition of coherent states | set12 (updated) |
Literature
| Author | Title | Publisher |
|---|---|---|
| M. Scully and M. Zubairy | Quantum Optics | Cambridge, 1997 |
| R. Loudon | The Quantum Theory of light | Oxford, 2000 |
| S. Haroche and J.-M. Raimond | Exploring the Quantum: Atoms, Cavities and Photons | Oxford, 2006 |
| D.F. Walls and G.J. Milburn | Quantum Optics | Springer, 2007 |
| C.W. Gardiner and P. Zoller | Quantum Noise | Springer, 2004 |
