2015-04-25

Atomic and Optical Physics II by Wolfgang Ketterle (Spring 2013 at MIT)

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source: MIT OpenCourseWare    Last updated on 2014年7月11日
MIT 8.422 Atomic and Optical Physics II, Spring 2013
View the complete course: http://ocw.mit.edu/8-422S13
This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light--squeezed states; multi-photon processes, Raman scattering; coherence--level crossings, quantum beats, double resonance, superradiance; trapping and cooling-light forces, laser cooling, atom optics, spectroscopy of trapped atoms and ions; atomic interactions--classical collisions, quantum scattering theory, ultracold collisions; and experimental methods.
License: Creative Commons BY-NC-SA
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1. Introduction to Atomic Physics 1:15:45
2. QED Hamiltonian 1:17:11
3. Quantum description of light, Part 1 1:27:07
3. Quantum description of light, Part 2 1:28:47
4. Non-classical light, squeezing, Part 1 1:22:23
4. Non-classical light, squeezing, Part 2 1:23:41
5. Single photons, Part 1 1:21:18
5. Single photons, Part 2 1:22:50
6. Entangled states 1:23:17
7. Metrology, shot noise and Heisenberg limit, Part 1 1:23:55
7. Metrology, shot noise and Heisenberg limit, Part 2 1:24:32
8. g(2) for atoms and light 1:23:17
9. Diagrams for light-atom interactions 33:37
10. van der Waals and Casimir interactions 53:13
11. Casimir force 1:18:39
12. Resonant interactions 1:23:26
13. Derivation of optical Bloch equations 1:23:45
14. Solutions of optical Bloch equations, Part 1 1:21:22
14. Solutions of optical Bloch equations, Part 2 1:24:53
15. Unraveling Open System Quantum Dynamics 1:21:12
16. Light forces, Part 1 1:28:48
16. Light forces, Part 2 1:24:04
17. Dressed atom, Part 1 1:22:40
17. Dressed atom, Part 2 1:17:48
18. Techniques for ultralow temperatures 1:26:51
19. Bose gases 1:25:05
20. Fermi gases, BEC-BCS crossover 56:38
21. Ion trapping and quantum gates 39:33