Applied Science & Technology 210 / Electrical Engineering 213: Soft X-Rays and Extreme Ultraviolet Radiation – Undulator Brightness and Harmonics

1. Lecture 1: Introduction, part A
2. Lecture 2: Introduction, Part B
3. Lecture 3: X-ray Interaction with Matter
4. Lecture 4: Radiation by an Accelerated Charge
5. Lecture 5: X-ray Scattering by a Multi-Electron Atom
6. Lecture 6: X-ray Refractive Index; Reflection and Refraction
7. Lecture 7: Brewster’s Angle; Multilayer Mirrors
8. Lecture 8: Multilayer Applications
9. Lecture 9: Synchrotron Radiation
10. Lecture 10: Bending Magnet Radiation
11. Lecture 11: Undulator Radiation
12. Lecture 12: Undulator Brightness and...
13. Lecture 13: Plasma Physics
14. Lecture 14: Plasma Physics (continued)
15. Lecture 15: Plasma Waves
16. Lecture 16: Blackbody Radiation
17. Lecture 17: High Harmonic Generation
18. Lecture 18: Lasers
19. Lecture 19: EUV and Soft X-ray Lasers
20. Lecture 20: Laser Wavelength Scaling
21. Lecture 21: Coherence, Spatial and Temporal
22. Lecture 22: Coherent Undulator Radiation
23. Lecture 23: Van Cittert-Zernike Theorem
24. Lecture 24: Coherence. Zone Plate Introduction
25. Lecture 25: Zone Plate Imaging and Microscopy
26. Lecture 27: Applications of Zone Plate Microscopy
27. Lecture 26: Spatial Resolution and Depth of Field
28. Lecture 28: EUV Lithography

Applied Science & Technology 210 / Electrical Engineering 213: Soft X-Rays and Extreme Ultraviolet Radiation.