MIT 8.422 Atomic and Optical Physics II, Spring 2013
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17 learners
What you'll learn
This course includes
- 36.3 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 28 lessons • 36.3 hours of video
MIT 8.422 Atomic and Optical Physics II, Spring 2013
28 lessons
• 36.3 hours
MIT 8.422 Atomic and Optical Physics II, Spring 2013
28 lessons
• 36.3 hours
- 1. Introduction to Atomic Physics01:15:45
- 2. QED Hamiltonian01:17:11
- 3. Quantum description of light, Part 101:27:07
- 3. Quantum description of light, Part 201:28:47
- 4. Non-classical light, squeezing, Part 101:22:23
- 4. Non-classical light, squeezing, Part 201:23:41
- 5. Single photons, Part 101:21:18
- 5. Single photons, Part 201:22:50
- 6. Entangled states01:23:17
- 7. Metrology, shot noise and Heisenberg limit, Part 101:23:55
- 7. Metrology, shot noise and Heisenberg limit, Part 201:24:32
- 8. g(2) for atoms and light01:23:17
- 9. Diagrams for light-atom interactions33:37
- 10. van der Waals and Casimir interactions53:13
- 11. Casimir force01:18:39
- 12. Resonant interactions01:23:26
- 13. Derivation of optical Bloch equations01:23:45
- 14. Solutions of optical Bloch equations, Part 101:21:22
- 14. Solutions of optical Bloch equations, Part 201:24:53
- 15. Unraveling Open System Quantum Dynamics01:21:12
- 16. Light forces, Part 101:28:48
- 16. Light forces, Part 201:24:04
- 17. Dressed atom, Part 101:22:40
- 17. Dressed atom, Part 201:17:48
- 18. Techniques for ultralow temperatures01:26:51
- 19. Bose gases01:25:05
- 20. Fermi gases, BEC-BCS crossover56:38
- 21. Ion trapping and quantum gates39:33
