Water Free Synthetic Fused Silica Window 50mm Diamter 5mm Thick

OPNQ-50C05-P

A standard Fused silica window has hydroxyl absorption (OH radical group) at wavelength 1.4μm, 2.2μm, 2.7μm. Anhydrous synthetic quartz is a special material that does not absorb water molecules in the molecular glass; therefore there is no hydroxyl absorption at the IR region.
◦The physical characteristics and optical properties of none hydroxyl absorption at IR region is the only difference from conventional synthetic quartz.
◦The material is physically robust and provide higher stability and is recommend for use in vacuum and high pressure environments.
More Information
Name Water Free Synthetic Fused Silica Window 50mm Diamter 5mm Thick
Weight 0.0220kgs
Standard Coatings Available No
Guide
  • We also offer AR coatings in accordance to your wavelength selection.
  • Product sizes and wedges which are not mentioned on our website or in this catalog are available, please ask our Sales Division.
Remark -
Attention
  • Fluorescence illuminant may occur with strong UV light exposure. For high UV exposure applications we recommend CaF2 Windows (OPCF) and Excimer laser use Fused silica windows (OPSQK)
  • WEB Reference Catalog Code/W3151, WEB Reference Catalog Code/W3137.
  • Windows are offered standard with no AR coating and provide transmittance of 94% after loss of 3% for each surface.
  • Wavefront reflection and transmission is not guaranteed; for interferometer and high precision optical application, please contact our Sales Division with your custom requests.
Image Label Water Free Synthetic Fused Silica Window 50mm Diamter 5mm Thick
Diameter φD 50mm
Material Water Free Synthetic Fused Silica
Parallelism <3′
Surface Quality <br> (Scratch-Dig) 20-10
Diameter φD φ50mm
Thickness t 5mm
In stock
SKU
OPNQ-50C05-P
$573.00

Delivery in : 6-12 weeks

A standard Fused silica window has hydroxyl absorption (OH radical group) at wavelength 1.4μm, 2.2μm, 2.7μm. Anhydrous synthetic quartz is a special material that does not absorb water molecules in the molecular glass; therefore there is no hydroxyl absorption at the IR region.

Resources & Downloads