KOGELNIK THEORY OF OPTICAL WAVEGUIDES PDF

Part of the Topics in Applied Physics book series TAP, volume 7 Abstract Dielectric waveguides are the structures that are used to confine and guide the light in the guided-wave devices and circuits of integrated optics. This chapter is devoted to the theory of these waveguides. Other chapters of this book discuss their fabrication by such techniques as sputtering, diffusion, ion implantation or epitaxial growth. A well-known dielectric waveguide is, of course, the optical fiber which usually has a circular cross-section. In contrast, the guides of interest to integrated optics are usually planar structures such as planar films or strips.

Author:Gagami Gakora
Country:Moldova, Republic of
Language:English (Spanish)
Genre:Medical
Published (Last):5 September 2010
Pages:470
PDF File Size:5.63 Mb
ePub File Size:18.89 Mb
ISBN:276-9-54631-143-9
Downloads:58932
Price:Free* [*Free Regsitration Required]
Uploader:Dirr



Part of the Topics in Applied Physics book series TAP, volume 7 Abstract Dielectric waveguides are the structures that are used to confine and guide the light in the guided-wave devices and circuits of integrated optics. This chapter is devoted to the theory of these waveguides. Other chapters of this book discuss their fabrication by such techniques as sputtering, diffusion, ion implantation or epitaxial growth. A well-known dielectric waveguide is, of course, the optical fiber which usually has a circular cross-section.

In contrast, the guides of interest to integrated optics are usually planar structures such as planar films or strips. Our discussion will focus on these planar guides even though most of the fundamentals are applicable to all dielectric waveguide types. This process is experimental and the keywords may be updated as the learning algorithm improves.

This is a preview of subscription content, log in to check access. Preview Unable to display preview. Download preview PDF. References N. Kapany, J. Google Scholar 2. QE-1, Reisinger: Appl. Kaminow, W. Mammel, H. Weber: Appl. Nelson, J. McKenna: J. Yamamoto, Y.

Koyamada, T. Makimoto: J. Ramaswamy: Appl. Ramaswamy: J. Tien: Appl. Maurer, L. Felsen: Proc. IEEE 55, CrossRef Google Scholar 2. Lotsch: Optik 27, Kogelnik, V. Artmann: Ann. Kogelnik, T. Sosnowski, H. Electron QE-9, Burke: Opt. Sei Newsletter 5, 31 Univ. Arizona, McKenna: Bell Syst. Adler: Proc. IRE 40, Allis, S. Buchsbaum, A. Kogelnik, H. Weber: J. Landau, E. Berk: IRE Trans. AP-4, Kurokawa: IRE Trans. MTT, Okoshi, K. Li: Appl. Teller: Z.

Physik 83, Gordon: Bell Syst. Conwell: Appl. Letters 23, Carruthers, I. Kaminow, L. Stulz: Appl. Standley, V. Letters 25, Haus, R. Schmidt: to be published. I, ed. Bates Academic Press, New York, Felsen, N. Somekh, E. Garmire, A.

Yariv, H. Garvin, R. Hunsperger : Appl. Goell: Appl. Furuta, H. Noda, A. Ihaya: Appl. Ramaswamy: Bell Syst. Schlosser, H. Goell: Bell Syst. Marcatili : Bell Syst.

Marcatili: Bell Syst. Miller: Bell Syst. Pierce: J. Quate, C. Wilkinson, D. Winslow: Proc. IEEE 53, Kogelnik: Bell Syst. Snyder: J. QE-9, Sosnowski, G. QE, Flanders, H. Kogelnik, R. Schmidt, C. Shank: Appl. Letters 24, Kogelnik, C.

GLASGOW GOMER SCALE PDF

2 . Theory of Dielectric Waveguides

Taushicage Bertoni Limited preview — Some examples of mode coupling are discussed in the following: Written by nine authors who are internationally recognized authorities in their areas, the book contains chapters on optical waveguides, lightwave junctions and other thin-film components, lithium-niobate LiNbO3 devices, guided-mode semiconductor GaAs and related lasers and integrated optic devices. My library Help Advanced Book Search. If you like this article, share it with your friends and colleagues, e. Waveguide Transitions and Junctions. The concept of mode coupling is very often used e. Light-propagation and imaging in planar optical waveguides In this situation, however, not all involved modes are necessarily resonant at the same time. For full-text searches, use our search page.

JACARANDA PHYSICS 2 HSC COURSE PDF

Theory of Optical Waveguides

Syms, R. Peall, "Explanation of asymmetric switch response of three-arm directional couplers in Ti:LiNbO3 using strong coupling theory," Opt. Huang, W. Lightwave Technol. Chu, and S. Quantum Electron.

ENGENHARIA DE SOFTWARE ROGER S.PRESSMAN PDF

Theory of Dielectric Waveguides

A comparison has been made between the physical-optic approach and the ray-optic approach in describing light propagation in a waveguide. In this chapter, the electromagnetic wave theory of the physical-optic approach is developed in detail. Emphasis is placed on the two basic waveguide geometries that are used most often in optical integrated circuits, the planar waveguide and the rectangular waveguide. This process is experimental and the keywords may be updated as the learning algorithm improves.

Related Articles