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 Matthew Luckiesh - D. Van Nostrand company
The book presents a condensed treatment of the science of color. An attempt has been made to cover as many phases of the subject as possible within the confines of a small volume. The science of color is treated from the viewpoint of applications.
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.
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.