Precision Ultraviolet Optical Mirror
-
- Achieves maximum reflectivity at 13.5 nm
- Designed for extreme ultraviolet beam steering and harmonic separation
- Available in 5° and 45° incidence angles
- UV-Enhanced Aluminum: Ravg > 90% for 250 – 450 nm
Specifications
|
Reflection Type |
Specification |
|
Protected Aluminum |
Ravg > 90% @ 0.4–0.7 μm |
|
Enhanced Aluminum |
Ravg > 92% @ 0.45–0.65 μm, Ravg > 90% @ 0.19–0.4 μm |
|
Dielectric Coating |
Ravg > 95% @ 0.5–0.8 μm, Ravg > 95% @ 2–10 μm |
|
Protected Gold |
Ravg > 95% @ 0.8–2 μm, Ravg > 84% @ 0.7–0.8 μm |
|
Multilayer Dielectric |
Ravg > 99.99% @ >400 nm, Ravg > 99.99% @ 0.25–0.4 μm |
|
Substrate |
H-K9L (N-BK7), Fused Silica, Si, Ge, Sapphire, Copper, Aluminum |
|
Diameter |
3–250 mm or customized |
|
Diameter Tolerance |
+/-0.1 mm, +/-0.01 mm |
|
Surface Flatness |
Lambda/4, Lambda/2, Lambda/10 |
|
Parallelism |
3′ |
|
AOI (Angle of Incidence) |
0°–45° |
|
Clear Aperture |
> 90% |
Chenyu ultraviolet optical mirror is a reflective optical component specifically designed for ultraviolet (UV) light.
Through the combination of the substrate and special coating layers, it achieves efficient reflection of ultraviolet light, reducing absorption and scattering losses.
The design and application of ultraviolet reflectors for different wavelength bands vary significantly:
- Near ultraviolet (NUV): wavelength range 320mm to 400mm
- Mid-ultraviolet (MUV):wavelength range 200mm to 320mm
- Deep Ultraviolet (DUV):wavelength range 100mm to 200mm
Precision Optical Flat Mirror
Our ultraviolet optical mirror can effectively reflect light in the UV-VIS-NIR spectra. They are ideal for most using applications.
Chenyu offers customized options to meet your specific need.
Our products include flat, wedge-shaped and odd aspect ratio precision mirrors.
- Semiconductor and microelectronics industry
- Medical and Biological Fields
- Industrial Manufacturing Sector
- Research and Testing Field
- The aerospace field
If you need to customize ultraviolet reflectors, please contact us at any time.
FAQS about ultraviolet optical mirror
