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Anti-reflection, beamsplitting and mirror coatings per your requirements.
As light passes through an uncoated glass substrate,approximately 4% will be reflected at each surface. This results in a total transmission of only 92% of the incident light for each single optic. Anti-Reflection (AR) coatings are especially important if the system contains many transmitting optical elements. Coating each component will increase the throughput of the system and reduce hazards caused by reflections traveling backwards through the system (ghost images or destabilizing feedback to lasers, for example). Many low-light systems incorporate AR coated optics to allow for an efficient use of the light. We can provide many kinds of antireflective, high reflective and partially reflective coatings. - Single Layer MgF2 Antireflective Coatings
- Multi Layer Antireflective Coatings
- Muti Layer Broadband Antireflectance Coatings
- Dual Wavelength Band Antireflective Coatings Specifications | Spectral Curves | Applications | Single layer MgF2 @ 540nm R<1.5% @Center Wavelength R<3% @ 400-700nm |  | Economic Lens & Prism
Input & output surfaces | V-type multilayer
AR Coatings R<0.2%@Center Wavelength
45°:R<0.5% @ Center Wavelength |  | High performance Elements for laser systems | W-type multilayer
AR Coatings 0°:R<0.5% @ 450-650nm
45°:R<1.0% @ 450-650nm |  | High performance Lens & Prism
Input & output surfaces | Partial reflectance or
half reflectance coatings on cube R=50%± 5% |  | | Partial reflectance or
half reflectance coatings on plate R=50%± 5% |  | | Polarizing beamsplitter coatings
on cube Ts<1%, Tp>95% |  | Beamsplitter Isolator Reflective type LCD projector | All dielectric high reflectance
coatings 0°:R<99.8% @ Center Wavelength
45°:R<99.5% @ Center Wavelength
|  | Laser cavity mirror Laser system folder | Metallic coatings: Protected Al Enhanced Al Protected Ag Protected Au |  | Flat mirror Spherical mirror Broadband Economic |
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