Polarized Light and Optical Systems presents polarization optics for undergraduate and graduate students in a way which makes classroom teaching relevant to current issues in optical engineering. This curriculum has been developed and refined for a decade and a half at the University of Arizonaâ s College of Optical Sciences.
Polarized Light and Optical Systems presents polarization optics for undergraduate and graduate students in a way which makes classroom teaching relevant to current issues in optical engineering. This curriculum has been developed and refined for a decade and a half at the University of Arizonaâ s College of Optical Sciences.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Russell Chipman, PhD, is professor of optical sciences at the University of Arizona and a visiting professor at the Center for Optics Research and Education (CORE), Utsunomiya University, Japan. He teaches courses in polarized light, polarimetry, and polarization optical design at both universities. Prof. Chipman received his BS in physics from Massachusetts Institute of Technology (MIT) and his MS and PhD in optical sciences from the University of Arizona. He is a fellow of The Optical Society (OSA) and The International Society for Optics and Photonics (SPIE). He received SPIE's 2007 G.G. Stokes Award for research in Polarimetry and OSA's Joseph Fraunhofer Award/Robert Burley Award for Optical Engineering in 2015. He is a co-investigator on NASA/JPL's Multi-Angle Imager for Aerosols, a polarimeter scheduled for launch into earth orbit around 2021 for monitoring aerosols and pollution in metropolitan areas. He is also developing UV and IR polarimeter breadboards and analysis methods for other NASA exoplanet and remote sensing missions. He has recently focused on developing the Polaris-M polarization ray tracing code, which analyzes optical systems with anisotropic materials, electro-optic modulators, diffractive optical elements, polarized scattered light, and many other effects. His hobbies include hiking, Japanese language, rabbits, and music. Wai-Sze Tiffany Lam, PhD, was born and raised in Hong Kong. She is currently an optical scientist in Facebook's Oculus Research. She received her BS in optical engineering and her MS and PhD in optical sciences from the University of Arizona. In her research she developed robust optical modeling and polarization simulation for birefringent and optically active optical components, components with stress birefringence, the aberrations in crystal retarders and polarizers, and the modeling of liquid crystal cells. Many of these algorithms form the basis of the commercial ray tracing code, Polaris-M, marketed by Airy Optics. Garam Young, PhD, graduated with a BS in physics from Seoul National University in Korea and received her doctorate from University of Arizona's College of Optical Sciences, also earning Valedictorian and Outstanding Graduate Student honors. She then developed polarization features and optimization features for CODE V and LightTools with Synopsys in Pasadena, and she currently works as an optical and illumination engineer in the Bay area. Her husband and daughter keep her busy at home.
Inhaltsangabe
1. Introduction and Overview. 2. Polarized Light. 3. Stokes Parameters and the Poincare Sphere. 4. Interference of Polarized Light. 5. Jones Matrices and Polarization Properties. 6. Mueller Matrices. 7. Polarimetry. 8. Fresnel Equations. 9. Polarization Ray Tracing Calculus. 10. Optical Ray Tracing. 11. The Jones Pupil and Local Coordinate Systems. 12. Fresnel Aberrations. 13. Thin Films. 14. Jones Matrix Data Reduction with Pauli Matrices. 15. Paraxial Polarization Aberrations. 16. Image Formation with Polarization Aberration. 17. Parallel Transport and the Calculation of Retardance. 18. A Skew Aberration. 19. Birefringent Ray Trace. 20. Beam Combination with Polarization Ray Tracing Matrices. 21. Uniaxial Materials and Components. 22. Crystal Polarizers. 23. Diffractive Optical Elements. 24. Liquid Crystal Cells. 25. Stress-Induced Birefringence. 26. Multi-Order Retarders and the Mystery of Discontinuities. 27. Summary and Conclusions.
1. Introduction and Overview. 2. Polarized Light. 3. Stokes Parameters and the Poincare Sphere. 4. Interference of Polarized Light. 5. Jones Matrices and Polarization Properties. 6. Mueller Matrices. 7. Polarimetry. 8. Fresnel Equations. 9. Polarization Ray Tracing Calculus. 10. Optical Ray Tracing. 11. The Jones Pupil and Local Coordinate Systems. 12. Fresnel Aberrations. 13. Thin Films. 14. Jones Matrix Data Reduction with Pauli Matrices. 15. Paraxial Polarization Aberrations. 16. Image Formation with Polarization Aberration. 17. Parallel Transport and the Calculation of Retardance. 18. A Skew Aberration. 19. Birefringent Ray Trace. 20. Beam Combination with Polarization Ray Tracing Matrices. 21. Uniaxial Materials and Components. 22. Crystal Polarizers. 23. Diffractive Optical Elements. 24. Liquid Crystal Cells. 25. Stress-Induced Birefringence. 26. Multi-Order Retarders and the Mystery of Discontinuities. 27. Summary and Conclusions.
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