Non-polarizing Cube Half Mirror Synthetic fused silica 15mm 266nm
NPCH-15-2660
Half mirrors have an even 1:1 ratio of reflection and transmission in both linear polarized light and normal light source.
◦The reflection to transmission ratio is 1:1 regardless of the polarization condition from the input beam.
◦Depending on polarization, the reflection to transmission ratio of these products does not vary.
◦The laser lines listed correspond to various laser wavelengths.
◦Narrowband multi-layer AR coatings are applied to the four surfaces of the cube.
◦These cubes afe designed for a single wavelength because the effective bandwidth of a non-polarizing coating is narrow.
◦Depending on polarization, the reflection to transmission ratio of these products does not vary.
◦The laser lines listed correspond to various laser wavelengths.
◦Narrowband multi-layer AR coatings are applied to the four surfaces of the cube.
◦These cubes afe designed for a single wavelength because the effective bandwidth of a non-polarizing coating is narrow.
Name | Non-polarizing Cube Half Mirror Synthetic fused silica 15mm 266nm |
---|---|
Gewicht | 0.0080kgs |
Standard Coatings Available | Nein |
Guide |
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Remark | - |
Attention |
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Design wavelength | 266nm |
Image Label | Non-polarizing Cube Half Mirror Synthetic fused silica 15mm 266nm |
Length | 15mm |
Material | Synthetic fused silica |
Transmittance | 50±10% |
Material | Synthetic fused silica |
Surface flatness of substrate | λ/4 |
Beam Deviation | <5′ |
Coating |
Hypotenuse surface ; Dielectric multilayer coating Four surfaces ; Multilayer antireflection coating |
Incident angle | 0° |
Divergence ratio <br> (reflectance : transmittance) | 1 : 1 |
Laser Damage Threshold | 0.3J/cm2 (Laser pulse width ; 10ns , Repetition frequency ; 20Hz) |
Surface Quality <br> (Scratch-Dig) | 20-10 |
Wavelength range | 266nm |
A=B=C | 15mm |
Transmittance | 50±10% |
Auf Lager
SKU
NPCH-15-2660
492,60 €
Half mirrors have an even 1:1 ratio of reflection and transmission in both linear polarized light and normal light source.