Extracto
Table of contents
1. Introduction/Motivation
2. Laser medium
2.1 Requirements for lasing
2.2 Possibilities for energy levels
3. Laser resonator
4. He-Ne laser
5. Fabry-Perot interferometer
6. Dielectric mirrors
7. Basic optical formulas
7.1 Snell's law
7.2 Fresnel equations
7.3 Brewster angle
8. Propagation using ray transfer matrix analysis
9. Properties of M²
10. Coherence
11. Parameters of the practicum
12. Autocollimation of the laser beam
13. Transversal modes
14. Gain factor and Brewster angle
15. Axial modes
16. Holography
17. Gaussian laser profile
18. Identification of the transversal modes
19. Calculation of gain factor and Brewster angle
20. Fabry-Perot-Interferometer
21. Gaussian laser profile
22. More questions
23. Conclusion
24. Bibliography
- Citar trabajo
- Moritz Lehmann (Autor)Niklas Stenger (Autor), 2017, Laser. Advanced Physical Practicum, Múnich, GRIN Verlag, https://www.grin.com/document/378240
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