by P. Ewart
Publisher: University of Oxford 2007
Number of pages: 64
Contents: Geometrical Optics; Physical Optics; Fraunhofer Diffraction; Fourier methods in Optics; Optical instruments and fringe localization; The diffraction grating spectrograph; The Michelson Interferometer; The Fabry-Perot interferometer; Reflection at dielectric surfaces and boundaries; Polarized light.
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by Daniel A. Steck - University of Oregon
Notes for an optics course at the advanced undergraduate level. Topics covered: Ray Optics; Electromagnetic Theory; Interference; Gaussian Beams; Fabry-Perot Cavities; Polarization; Fresnel Relations; Thin Films; Fourier Optics; etc.
by Owen D. Miller - arXiv
This work unites fundamental physics and a novel computational inverse design approach towards energy-efficient photonic and optoelectronic devices. The book is devoted to solar cells and inverse design as a new computational paradigm in photonics.
by Anuj Kumar Dubey - viXra
These lectures contain the topics such as: Basics of optics, reflection and refraction, spherical mirrors, velocity of image in the plane and spherical mirror, refraction at plane surfaces, prism theory, refraction from curved surfaces, cut lenses...
by R.F. Davidson, R.W. Tinnell - Delmar Publishers
The book is intended to introduce both basic geometric optics and the laser. The materials are presented in an action-oriented format combining many of the features normally found in a textbook with those usually associated with a laboratory manual.