BRIGHAM YOUNG UNIVERSITY
Search BYU
Contact
|
Help
ECEn Home
Photonics Home
reference
Complex Index of Refraction Look-up Utility
Navigation Menu
Photonics Home
Cleanroom Home
Tutorials...
Wavelength Measurement
Fiber Bragg Gratings Tutorial
Commercial Fiber Fabrication Tutorial
Fabry-Perot Cavities
Interference
Diffraction
Corona Poling
Polarization
Polydimethylsiloxane
Matlab Tutorial
Reference...
List of all References
Complex Index of Refraction Look-up Utility
Tabulated Optical Constants
Fiber Connectors
Types of Optical Fibers
Polymer Recipe Calculator
Connectorizing Fibers
Calculators...
Polymer Recipe Calculator
Anti-Reflection Coating Thickness Calculator
Anti-Reflection Thickness Graphs
Color Chart
Fabry-Perot Cavity Calculator
Frequency to Wavelength conversion Chart
Fiber Parameter Calculator
Gaussian Beam Propagation
Grating Calculator
Power Reflection Calculator
Polarization Calculator
Processes...
Lab Processes
Documentation
Core Removal
Core Replacement
Polymer Mixing
Holography Steps
Surface Relief Bragg Gratings
SR_FBG Fabrication
In-Fiber Devices
Lloyd Mirror Configuration
Fiber Lithography
Projects...
Current Projects
FSIM
Surface Relief Bragg Gratings
Core Replacement
In-Fiber Devices
Slab Coupled Fibers
Lab Equipment...
All equipment
People
Lab Safety
Argon Ion Laser
CO2 Laser
Transmitter
Erbium Doped Fiber Amplifier
IR Camera
Receiver
Optical Osciloscope
ASE
Tunable laser
Optical Pattern Generator
Optical Attenuator
Ellipsometer
Opitical Spectrum Analyzer
Fusion Splicer
Power Meters
Misc. Equipment
Miscellaneous...
Links
Lab Documentation
Project Forum Home
[
see all...
]
Expand All
Compress All
Instructions
Choose a material from the drop down menu, enter the incident wavelength, and click on "Calculate." The material's index of refraction and extinction coefficient will appear below.
Index of Refraction Explanation
The Index of Refraction of a material is the ratio of phase velocity of an electromagentic wave in free space to the phase velocity in the material. The index of refraction of two materials can be used to predict how light will pass from one medium to the other.
The Extinction Coefficient is the imaginary part of the index of refraction.
These
optical constants
are calculated via linear interpolation on the optical constant values reported in the book
Handbook of Optical Constants of Solids
by Edward D. Palik
The graphs and numerical data can be found on the
Tabulated Optical Constants
page.
Material
Choose Material
Si
Silicon Nitride
SiO
2
Amorphous Silicon
Gallium Arsenide
Indium Phosphide
Metallic Aluminum
Nickel
Chromium
Copper
Silver
Material Index:
Material Extinction Coefficient
Incident Wavelength:
(in nanometers)
Error message:
Maintained by
ECEn Dept. Web Team
.
Copyright © 1994-2004. Brigham Young University. All Rights Reserved.
