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Sellmeier equation
Theoretical Modelling and Experimental Evaluation of the Optical Properties of Glazing Systems with Selective Films
Relativistic Corrections to the Sellmeier Equation Allow Derivation of Demjanov’S Formula
Refractive Index Engineering and Optical Properties Enhancement by Polymer Nanocomposites
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Index of Refraction from the Near-Ultraviolet to the Near-Infrared from a Single Crystal Microwave-Assisted CVD Diamond
Polarization Modeling and Predictions for DKIST Part 3: Focal Ratio and Thermal Dependencies of Spectral Polarization Fringes and Optic Retardance
Optical Constants of Silica Glass from Extreme Ultraviolet to Far Infrared at Near Room Temperature
Temperature-Dependent Refractive Index of Silicon and Germanium
Analysis of Transmitted Optical Spectrum Enabling Accelerated Testing of CPV Designs
Absorption of Electromagnetic Radiation
Lecture 5 Photonic Signals and Systems
B.Sc. => Solid-State Physics Chapter
Methods for Determining the Refractive Indices and Thermo-Optic T Coefficients of Chalcogenide Glasses at MIR Wavelengths Y
Numerical Simulation of Mid-Infrared Optical Frequency Comb Generation in Chalcogenide As2s3 Microbubble Resonators
Modeling Radiation Characteristics of Semitransparent Media Containing Bubbles Or Particles
Optical Constants of Silica Glass from Extreme Ultraviolet to Far Infrared at Near Room Temperature
Determining the Refractive Index Dispersion and Thickness of Hot-Pressed Chalcogenide Thin films from an Improved Swanepoel Method
Cryogenic Temperature-Dependent Refractive Index Measurements of N-BK7, Bal 3, and SF15 for NOTES PDT
Top View
Extended Sellmeier Equation for the Extraordinary Refractive Index of 5% Mgo-Doped Congruent Linbo3 at High Temperature H
Al2o3 SINGLE CRYSTAL
Dispersion of Refractive Properties of Solvents: Chloroform, Toluene, Benzene, and Carbon Disulfide in Ultraviolet, Visible, and Near-Infrared Anna Samoc
UCLA Electronic Theses and Dissertations
Aluminum Nitride Waveguides for Potential Soliton Propagation
1 Fundamental Optical Properties of Materials I
Refractive Index Measurements of Ge
Investigation on Material Dispersion As a Function of Pressure and Temperature for Sensor Design
Refractive Index and Dispersion TIE-29
Refractive Index of Optical Materials Jean-Louis Meyzonnette, Jacques Mangin, Michel Cathelinaud
Dispersion Measurement Method with Down Conversion Process
Chapter 2 Classical Electromagnetism and Optics
Optical and Physical Properties of Materials Chapter 33 Properties of Crystals and Glasses