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1200 Groove, UV Transmission Grating, 50 mm Sq., 2 mm Thick
Grooves Per mm
1200
Groove Angle
26.74°
Substrate
Fused Silica
Size
50 mm sq.
Size Tolerance
±0.5 mm
Thickness
2 mm
Thickness Tolerance
±0.5 mm
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, UV Transmission Grating, 50 mm Sq., 2 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
Fused Silica
Size
50 mm sq.
Size Tolerance
±0.5 mm
Thickness
2 mm
Thickness Tolerance
±0.5 mm
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 12.5 X 25 mm, 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
12.5 X 25 mm
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Grooves Parallel
Short
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 12.5 X 25 mm, 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
12.5 X 25 mm
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Grooves Parallel
Short
Coating
MgF2
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 12.7 mm Sq., 3 mm Thick
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1200 Groove, VIS Transmission Grating, 12.7 mm Sq., 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
12.7 mm Sq.
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Coating
MgF2
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 25 mm Sq., 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
25 mm Sq.
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 25 mm Sq., 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
25 mm Sq.
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Coating
MgF2
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 25 X 50 mm, 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
25 X 50 mm
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Grooves Parallel
Short
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
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1200 Groove, VIS Transmission Grating, 25 X 50 mm, 3 mm Thick
Grooves Per mm
1200
Groove Angle
36.87°
Substrate
AR Coated B-270
Size
25 X 50 mm
Size Tolerance
±0.5 mm
Thickness
3 mm
Thickness Tolerance
±0.5 mm
Grooves Parallel
Short
Coating
MgF2
Scratch/Dig
60/40
Clear Aperture
90%
Edge Angle
90° ±0.50°
Perpindicularity
90° ±0.50°
Operating Temperature Range
-50° C to +125° C
Damage Threshold: Pulsed laser
350 mJ/cm², 200 nano sec. pulse
Damage Threshold: CW Laser
40 watts/cm²
Transmission Grating
Optometrics
Transmission Grating
DeepUV, UV, VIS and IR Transmission Diffraction Gratings
A transmission grating offers a basic simplicity for optical designs that can be beneficial in fixed grating applications such as spectrographs (aka optical spectrometer). The incident light is dispersed on the opposite side of the grating at a fixed angle. Transmission gratings are very forgiving for certain types of grating alignment errors.
By necessity, a transmission grating requires relatively coarse groove spacings to maintain high efficiency. As the diffraction angles increase with finer spacing, the refractive properties of the materials used limit the transmission at the higher wavelengths and performance drops off. The grating dispersion characteristics, however, lend themselves to compact systems utilizing small detector arrays. The gratings are also relatively polarization insensitive.
- Our patent-pending DeepUV™ optics provide low barrier options for replicated transmission gratings that need to extend function to 190 nm.
- Cost-effective solution for replicated UV gratings!
Excellent environmental stability, resistant to humidity at 95% at a 50º C - Improved solarization resistance compared to other replicated optics
- Excellent transmission from 190 nm – 1100 nm
- Sawtooth or holographic grating structures available
- Substrate is Fused Silica
Sizes available from 4mm x 4mm, 12.5mm x 12.5 mm and 25mm x 25mm
Request your custom sizing, as well.
Download the Brochure
This line of blazed transmission gratings was designed for optimum performance in the visible and NIR spectrum, offering different levels of dispersion. In most cases, the efficiency is comparable to that of reflection gratings typically used in the same region of the spectrum. Zero order data is included in all performance curves for those interested in beam splitting applications.
UV Transmission Gratings are produced on fused silica substrates providing superior diffraction efficiencies as low as 235 nm. Zero order data is included in all performance curves for those interested in beam splitting applications.
An AR coating can be applied to the non diffracting surface of our visible Transmission gratings which increase diffraction efficiencies by reducing first surface reflection losses. Our standard AR coatings are designed to increase efficiency of the grating in the 400-800nm range. Please contact Optometrics for other spectral ranges.
Optometrics develops hybrid grating and optical filter for holographic weapons sight.