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John Wiley & Sons Properties of Optical and Laser-Related Materials Cover Covers 125 of the most common optical and laser-related materials frequently used in laser physics a.. Product #: 978-0-471-97384-3 Regular price: $626.17 $626.17 Auf Lager

Properties of Optical and Laser-Related Materials

A Handbook

Nikogosyan, David N.

Cover

1. Auflage Oktober 1997
XX, 594 Seiten, Hardcover
Wiley & Sons Ltd

Kurzbeschreibung

Covers 125 of the most common optical and laser-related materials frequently used in laser physics and technology, optics and spectroscopy, nonlinear optics, quantum electronics and laser applications. Discusses not only the classical properties but also those appearing over the last three decades after the invention of lasers.

ISBN: 978-0-471-97384-3
John Wiley & Sons

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Ein einziger Band, der umfassend und präzise die 125 der gebräuchlichsten optischen und laserbezogenen Materialien behandelt, die am häufigsten in der Laserphysik und -technologie, in Optik, Spektroskopie, nichtlinearer Optik, Quantenelektronik und Laseranwendungen benutzt werden. In klarer, tabellarischer Anordnung und mit über 1.000 aktuellen Verweisen werden sowohl die klassischen Materialeigenschaften als auch die Eigenschaften erörtert, die sich in den vergangenen drei Jahrzehnten seit Erfindung des Lasers herausgebildet haben. (10/97)

Material State, Specific Gravity, Point Group, Lattice Constants, Assignment of Dielectric and Crystallographic Axes, Hardness, Curie Temperature for Crystals, Softening Point for Glasses and Polymers, Linear Thermal Expansion Coefficient àT for Solids, Volume Thermal Expansion Coefficient á T for Liquids, Specific Heat Capacity Cp, Thermal Conductivity Coefficient K, Transparency Range, Linear Absorption Coefficient à, Two-Photon Absorption Coefficient á, Three-Photon Absorption Coefficient g, Optical Constants, Birefringence for Non-Isotropic Crystals, Temperature Derivative of Refractive Index, Dispersion Relation, Nonlinear Refractive Index g, Linear Electrooptic Coefficients Measured at Low Frequencies, Linear Electrooptic Coefficients Measured at High Frequencies, Half-Wave Retardation Voltage at Longitinual Modulation Vg/2, Kerr Constant B, Verdet Constant, Lineshifts, Linewidths, Steady-State Rotational Raman Gain Coefficient G, Effective Nonlinearity in Phase-Matching Direction, Effective Nonlinearity for Three-Wave Interactions in the Principal Planes, Nonlinear Coefficient, Laser-Induced Breakdown Threshold, Band-Gap Energy Eg, Ionization Threshold Eion, Dissociation Threshold Edis, Ionization Potential in Vacuum, Position of Absorption Bands and Related Linear Absorption Coefficients, Fluorescence Lifetime, Absorption Cross-Section, Stimulated Emission Cross-Section, Effective Stimulated Emission Cross-Section, Linewidth of Lasing Transition.