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Last update: T_KCHFO (11.05.2001)
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Last update: prof. RNDr. Petr Němec, Ph.D. (11.05.2023)
This is a considerably advanced course in optics, which is primarily intended for students in the 3rd year of the Bachelor's degree in Physics, or students in the 1st year of the Master's degree in Optics and Optoelectronics. The content of the course forms the basis for subsequent specialized lectures on optics. |
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Last update: prof. RNDr. Petr Němec, Ph.D. (11.05.2023)
In order to be awarded credit, a credit test must be successfully written at the end of the semester. There is one regular and two reparative attempts to pass this test. The credit must be obtained before registering for the exam. |
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Last update: NEMEC/MFF.CUNI.CZ (03.04.2008)
basic:
M. Born, E. Wolf: Principles of Optics, Cambridge University Press, Cambridge 2003.
B. E. A. Saleh, M.C, Teich: Fundamentals of Photonics, A Wiley-Intersience publication, New York, 1991.
E. Hecht: Optics, Addison Wesley, San Francisco 2002.
complementary:
Luneburg,R.K.: Mathematical Theory of Optics, University of California Press, Berkeley, CA, 1964
M. Francon: Optical Interferometry
D. Marcuse: Light Transmission Optics
D. Marcuse: Theory od Dielectric Optical Waveguides
H.-G. Unger: Planar Optical Waveguides and Fibers
S. Solimeno, B. Crosignani a P. DiPorto: Guiding, Diffraction and Confinement of Optical Radiation
J. Peřina: Coherence of Light
H. Haken: Light
A. K. Ghatak, K. Thyagarajan: Contemporary Optics
A. K. Ghatak: An Introduction to Modern Optics
C. Curry: Wave Optics
J. A. Arnaud: Beam and Fiber Optics
A. Yariv: Quantum Electronics
A. Papoulis: Systems and Transform with Applications in Optics
J. W. Goodman: Introduction to Fourier Optics
M. Francon: Holography
H. A. Haus: Waves and Fields in Optoelectronics
L. Mandel, E. Wolf: Optical Coherence and Quantum Optics |
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Last update: prof. RNDr. Petr Němec, Ph.D. (11.05.2023)
The exam is oral. The exam requirements correspond to the course syllabus. |
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Last update: prof. RNDr. Petr Němec, Ph.D. (11.05.2023)
1. Basic equations of electromagnetic theory. 2. Polarization of light. 3. Wave propagation in stratified medium. 4. Geometrical optics. 5. Light waves in absorbing medium. 6. Perception of colours. 7. Introduction to theory of optical coherence. 8. Fourier optics. 9. Holography. 10. Gaussian beams and optical resonators. |