Global ETD Search

31	Optical resonances in photonic-crystal-embedded microcavities / Tsia, Kin Man. January 2005 (has links) Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2005. / Includes bibliographical references (leaves 201-208). Also available in electronic version.
32	Photonic crystals analysis, design and biochemical sensing applications / Kurt, Hamza. January 2006 (has links) Thesis (Ph. D.)--Electrical and Computer Engineering, Georgia Institute of Technology, 2007. / Papapolymerou, John, Committee Member ; Adibi, Ali, Committee Member ; Citrin, David, Committee Chair ; Summers, Christopher, Committee Member ; Voss, Paul, Committee Member.
33	Modeling and design of photonic crystal waveguides and fibers / Shen, Linping. Huang, Wei-Ping, January 2003 (has links) Thesis (Ph.D.) -- McMaster University, 2004. / Adviser: Wei-Ping Huang. Includes bibliographical references (leaves 168-176).
34	Generalized anisotropic acoustooptic diffraction in uniaxial crystals Oliveira, José E. B. (José Edimar Barbosa) January 1986 (has links) No description available. Crystal optics Acoustooptics Crystals -- Diffraction. Anisotropy
35	Study of the optical absorption and dichroism of color centers in gamma-irradiated LiF:Mg Jen, Luke Chen-Yuan January 2011 (has links) Digitized by Kansas Correctional Industries Color centers Alkali metal halide crystals Crystal optics
36	A study of new optical materials I. Crystal-chemical development of new optical frequency converters II. New hosts for Cr3+ luminescence and lasing Schaffers, Kathleen I. 16 September 1992 (has links) The emphasis of this work has been in two areas of optical materials - the crystal-chemical development of new optical frequency converters and the synthesis and study of new hosts for Cr�� luminescence and lasing. A simple method has been developed to identify promising frequency-doubling materials containing triangular oxoanions by estimation of nonlinear susceptibilities. Implementation of this method and its results have generated predictive capabilities in determining the relationships among crystal structure, nonlinear properties, and threshold powers. The new noncentrosymmetric borate SrLiB��O�� is discussed; its structure is built from a 3-dimensional condensation of B��0�� units with channels alternately filled with Sr and Li atoms. From these studies, a prescription for new pyroborate frequency converters has been developed. The material CdC��C��H7NO��, has been synthesized and structurally characterized by single-ciystal X-ray diffraction. Three new alkaline-earth beryllium borates, built from unique 2- and 3- dimensional networks and frameworks, have been identified. The structure of SrBe��(B0��)�� consists of layers of composition [Be��(BO��)��] interleaved by Sr atoms. CaBeB��O�� is constructed from a Ca0�� polyhedral network and a beryllium borate network. In BaBe��(B0��)�� the structure is composed of a beryllium borate framework intermingled with a Ba-centered dodecahedral framework. Several materials with potential as hosts for Cr�� lasing have been analyzed. The structural study of the laser host LiSrAIF6 revealed the distortions at the Al site that contribute to the unique optical properties of the Cr�� -doped crystals. The family of solid state oxide A��MM'(B0��)�� is one of the largest families of oxide reported to date. Metal site preferences, disorder, solid solubility, and the interrelationship between this structure and the layered structure type of Ba��Sc(B0��)�� are detailed. An optimal synthetic procedure has been developed for these materials to provide pure, highly crystalline phases. Also, the structural and optical features of (Cr��:) Sr��In(B0��)�� with A= Sr and M=M'= In have been studied. The material Sr��LilnB��O��, was discovered while searching for a suitable lithium borate flux for crystal growth of the compound Sr��In(B0��)��. / Graduation date: 1993 Optical materials Crystal optics Solid-state lasers Laser materials
37	Chiro-optics of achiral compounds / Claborn, Kacey A. January 2006 (has links) Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 228-251).
38	Photonic crystal-based passive and active devices for optical communications Chen, Xiaonan, 1980- 07 September 2012 (has links) With the progress of microfabrication and nanofabrication technologies, there has been a reawakened interest in the possibility of controlling the propagation of light in various materials periodically structured at a scale comparable to, or slightly smaller than the wavelength. We can now engineer materials with periodic structures to implement a great variety of optical phenomena. These include well known effects, such as dispersing a variety of wavelength to form a spectrum and diffracting light and controlling its propagation directions, to new ones such as prohibiting the propagation of light in certain directions at certain wavelengths and localizing light with defects in some artificially synthesized dielectric materials. Advances in this field have had tremendous impact on modern optical and photonic technologies. This doctoral research was aimed at investigating some of the physics and applications of periodic structures for building blocks of the optical communication and interconnection system. Particular research emphasis was placed on the exploitation of innovative periodic structure-based optical and photonic devices featuring better functionality, higher performance, more compact size, and easier fabrication. Research topics extended from one-dimensional periodic-structure-based true-time delay module, to two-dimensional periodic-structure-based silicon photonic-crystal electro-optic modulators. This research was specifically targeted to seek novel and effective solutions to some long-standing technical problems, such as slow switching speed, large device size, and high power consumption of silicon optical modulators, among others. For each subtopic, research challenges were presented and followed by the proposed solutions with extensive theoretical analysis. The proposals were then verified by experimental implementations. Experimental results were carefully interpreted and the future improvements were also discussed. / text Optical communications Crystal optics Modulators (Electronics) Optoelectronic devices
39	Photonic crystal waveguides based active and passive devices for phased array antenna systems Jiang, Yongqiang 28 August 2008 (has links) Not available / text Photonics Crystal optics Phased array antennas Optical wave guides
40	Measurement of the refractive index of CsI and CsBr at cryogenic temperatures Swedberg, James Lee January 1979 (has links) No description available. Refractive index. Crystal optics. Crystals at low temperatures.

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