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Broadband partial reflective coating has similar performance of single wavelength band partial reflective coatings,but there is an abvious difference between them that is can be applied to split the incident radiation over a wides spectrum.
 Reflectance Simulation of Broadband Partial Reflection Coatings |
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Designed condition: 1) Substrate: BK7 Glass Non-Polarzing ____________________Plate Beamsplitter
__________________2) Center wavelength: 532nm
_________________ 3) Illuminant: White |
Designed condition: 1) Substrate: BK7 Glass Non-Polarzing ____________________Cube Beamsplitter
__________________2) Center wavelength:532um
_________________ 3) Illuminant: White |
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Single Wavelength Partial Reflection Coatings on Non Polarizing Plates.
Wavelength
Range (nm) |
Incident Angles |
Transmittance
(Tp,Ts) |
Recommended Substrate |
Coating Index |
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45° |
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BK7,Fused Silica |
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45° |
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BK7,Fused Silica |
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1300-1550 |
45° |
50 ± 5% |
BK7,Fused Silica |
UQT-BPARP003 |
Single Wavelength Partial Reflection Coatings on Non Polarizing Cubes.
Wavelength
Range (nm) |
Incident Angles |
Transmittance
(Tp,Ts) |
Recommended Substrate |
Coating Index |
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0° |
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BK7,Fused Silica |
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0° |
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BK7,Fused Silica |
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1300-1550 |
0° |
50 ± 5% |
BK7,Fused Silica |
UQT-BPARC003 |
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| Please Contact ultiQuest for more information and technical supports. |
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| NOTES! |
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The transmittance in the specifications list is that of random polarization or (p-polarization transmittance + s-polarization transmittance) / 2. |
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The values of laser damage threshold are based on actual measurement and not a guaranteed specification. |
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