2 edition of Lithium niobate crystals found in the catalog.
Lithium niobate crystals
Iпё UпёЎ. S. KuzК№minov
Includes bibliographical references and index.
|Statement||Yu S. Kuzʹminov.|
|LC Classifications||QD181.L5 K89 1999|
|The Physical Object|
|Pagination||126 p. :|
|Number of Pages||126|
Lithium niobate is a ferroelectric material with excellent electro-optic, nonlinear optical, and piezoelectric properties. It is one of the most thoroughly characterized electro-optic materials, and Inrad Optics’ crystal growing techniques consistently produce large lithium niobate crystals of exceptional quality. We numerically analyze ultra-refraction and slow-light in lithium niobate photonic crystals in order to investigate and then optimize the efficiency of a tunable photonic crystal superprism. In contrast to a passive superprism 1-to-N demultiplexer, we describe a Cited by:
Part 7 Nonlinear optical properties of lithium niobate: elements of nonlinear optics-- methods used to establish nonlinear coefficients-- relationship of birefrigence and phase-matching temperature to lithium niobate crystal composition-- criteria for nonlinear-optical quality of crystals-- establishment of SHG in lithium niobate crystals with. Demonstrating a device that efficiently connects light, motion, and microwaves is an outstanding challenge in classical and quantum photonics. We make significant progress in this direction by demonstrating a photonic crystal resonator on thin-film lithium niobate (LN) that simultaneously supports high-Q optical and mechanical modes, and where the mechanical modes are coupled Cited by: 4.
Lithium niobate is a compound of niobium, lithium, and oxygen. Its single crystals are an important material for optical waveguides, mobile phones, piezoelectric sensors, optical modulators and various other linear and non-linear optical applications. It is a human-made dielectric material that does not exist in nature. Lithium niobate is sometimes referred to by the brand name linobate. Plate Orientation Wave Type Coupling Factor Resonance Frequency Constant (MHz-mm) X: S: Z: E: 36° Y - Cut: QE: ° Y - Cut.
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These properties are determined by the crystal structure of lithium niobate sensitive to physical and chemical effects. Special attention is given in the book to physico-chemical features of technology, disruption of stoichiometry in these crystals and detection of this disruption by physical by: B&N Book Club B&N Classics B&N Collectible Editions B&N Exclusives Books of the Month Boxed Sets Discover Pick of the Month Escape into a Good Book Read Before You Stream Signed Books Trend Shop.
Blogs. B&N Podcast B&N Reads B&N Press Blog. Special Values. Buy 1, Get 1 50% Off: Price: $ Lithium Niobate Crystals by IU.S. Kuz'minov,available at Book Depository with free delivery worldwide.
The Physics and Chemistry of Crystalline Lithium Niobate is devoted to the fundamental properties of the crystal and offers practical recommendations for its use.
An insight is given into the physical processes that take place in lithium niobate under the influence of such factors as temperature, radiation, electric fields, impurities and. A Lithium niobate crystals book and practical review of lithium niobate photonics as can only be written by someone with extensive experience both in industry and in teaching the applied sciences.
This book is ideal for anyone looking for an introduction to the field of electro-optics in general and to lithium niobate device technologies in by: 7.
Lithium niobate crystals were grown for the first time by the Chokhralsky method inand their structure was investigated by Abrahams in the series of works [2, 3]. Lithium niobate (LiNbO 3) belongs to a R3c space group, where the oxygens are arranged in nearly hexagonal close-packed planar sheets, as shown in figure Lithium Niobate Crystal (LiNbO) 3 LiNbO Crystal is widely used as frequency doublers for wavelength > 1 m and optical parametric oscillators (OPOs) pumped at nm as well as quasi-phase-matched (QPM) devices.
Due to its large Electro-Optic (E-O) and Acousto-Optic (A-O) coefficient, LiNbO crystal is. A series of lithium niobate (LiNbO3) crystals of congruent and stoichiometric compositions, doped with erbium, have been grown under non-steady-state thermal conditions.
INRAD offers lithium niobate in a variety of configurations. Standard cuts are available as OPO crystals, Q-switches, difference frequency mixing crystals, autocorrelation crystals, and optical waveguide wafers. Please consult an INRAD sales engineer for assistance in crystal File Size: KB.
Infrared corrected Sellmeier coefficients for congruently grown lithium niobate and 5 mol.% magnesium oxide-doped lithium niobate, J. Opt. Soc. B 14, () Data [ Expressions for n ] [ CSV - comma separated ] [ TXT - tab separated ] [ Full database record ].
Ferroelectric lithium niobate (LiNbO3) is widely used in integrated and guided-wave optics because of its favorable optical, piezoelectric, electro-optic, elastic, photoelastic, and photorefractive properties. However, detailed summaries of its pertinent physical properties and crystal structure are not readily by: Abstract.
Lithium niobate possesses a very unique combination of properties and characteristics: 1) ferroelectric with a high Curie point, 2) large nonlinear optical coefficient, 3) large birefringence, 4) strong piezoelectric effect, 5) excellent acoustic properties, and 6) large electrooptic effect.
Posts: Lithium niobate is a synthetic crystal first grown in the early s using Czochralski technique, later flame fushion and flux method too. For gemstones it is called an artifical product "Linobate".
It was predecessor same as YAG, GGG and Fabulite (Strontiumtitanate) before Cubic Zirconia and syn. Lithium Niobate Crystals by Kusminov, Yu; Kuz'minov, Yurii, Sergeev and a great selection of related books, art and collectibles available now at The single-mode conditions, the mode distributions, and the optical power distribution of the lithium niobate channel waveguides are discussed and compared in this study.
The design parameters of the Y-branch and the separation distances between the electrodes were by: 1. Lithium Niobate 16 Domostroitelnaya str. Petersburg, Russia hoe Fa mai [email protected] Lithium niobate (LiNbO 3) is a ferroelectric crystal that belongs to the trigonal crystal system. Lithium niobate is transparent between and μm (fig.
File Size: KB. The book deals with lithium metaniobate single crystals, which are characterized by high electrooptical, piezoelectrical, pyroelectrical, and nonlinear optical coefficients.
The physical properties of these crystals make them suitable for use in devices for modulating, deflecting, and transforming the frequency of laser emission and also in integral optics and optical holography by: Laser radiation with irregular wavefront erases noisy photorefractive gratings in lithium niobate crystals doped with iron.
We investigated noisy photorefractive gratings recording and erasing via observing the photoinduced light scattering in LiNbO 3:Fe the effect of the incoherent light on the photoinduced light scattering excitation is considered in the paper. A series of pure congruent lithium niobate (LiNbO 3, CLN) crystals were grown and directly polarized under different electric currents in the growth furnace.
Their holographic properties were investigated from the ultraviolet to the visible range. The use of lithium niobate in signal filtering in TV sets and video cassette recorders is well established and it is finding increased application in optoelectronic modulation devices in DWDM (dense wavelength division multiplexing) fibre optic systems.
Much LiNbO3 research has taken place in recent years. This fully illustrated volume brings electronic engineers, materials scientists and. Abstract rroelectricity in lithium niobate (LiNbO 3) and lithium tantalate (LiTaO 3) crystals was discovered by Matthias and Remeika in .They emerged as key technological materials in the areas of nonlinear optics,  integrated optics Cited by: Due to its excellent piezoelectric pyro-electric, electro-optic and photorefractive properties, lithium niobate LiNbO 3 (LN) has become one of the most important crystal materials for research because of its several device applications, such as in photorefractive devices, holographic memories, electro-optic modulators, waveguide structures, etc.Cited by: 4.An account of the ferroelectric lithium niobate crystal, discussing its physical and chemical properties and technology of manufacture and emphasizing its applicability to laser radiation control.
The book aims to show the contributions of Soviet scientists to the development of this material.