- About Us
- Career Center
- Nano-Social Network
- Nano Consulting
- My Account
CODIXX introduces the colorPol® MIR polarizer to enter the corresponding market for polarizing filters in the spectra range from 2000 to 4500nm.
CODIXX extends the colorPol® polarizer product family with the colorPol® MIR to cover the mid infrared range.
With the steady raise of applications in the MIR range like matter analysis or thermography, the polarizer is thrusted into the spotlight.
CODIXX's answer to this challenge is the new colorPol® MIR.
This filter comes with a very large bandwidth and provides high extinction ratios of above 10,000 : 1 (40dB) within 2.0 µm ‑ 4.5 µm (in wavenumbers 5,000 cm¹ - 2,222 cm¹) and above 1,000 : 1 (30dB) within 1.5 µm - 5.0 µm (in wavenumbers 6,666 cm¹ - 2,000 cm¹). Transmittance properties up to 90% underline the entitlement to a high performance polarizer.
Based on the unique colorPol® technology for doping of sodium silicate glass with prolate silver nanoparticles all colorPol® polarizers provide high temperature stability up to + 400° C, resistance against rough environmental influences, against the most chemicals, UV radiation and bleaching as well as the ease applicability to name a few.
Dimensions ranging from 1 x 1 mm² up to 100 x 50 mm² and different shapes are available. In addition, the filter is offered in standard versions with diameters of 12.5 mm, 25.0 mm as well as 0.5 inches and 1 inches, respectively.
CODIXX is a manufacturer of optical polarizers for the infrared, the visible and UV spectral range. On the cutting edge of nanotechnology, its leading role is a result of steady development since it was founded in 1998.
San José, Photonics West 2008, booth 1827, main hall.
For more information, please click here
+49 39203 9630
Copyright © Newswire TodayIf you have a comment, please Contact us.
Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
|Related News Press|
News and information
Marrying superconductors, lasers, and Bose-Einstein condensates: Chapman University Institute for Quantum Studies (IQS) member Yutaka Shikano, Ph.D., recently had research published in Scientific Reports June 20th, 2016
A new trick for controlling emission direction in microlasers June 20th, 2016