a vast array of choices - horiba...900 4/3 7.00 ≤ .4 nm 186 0-1333 600 2 10.5 ≤ .6 nm 280 0-2000...
TRANSCRIPT
A Vast Array of ChoicesThere is a wide selection of gratings to choose from depending on optical requirements. There are three different types of gratings available; classically ruled, holographic, and blazed holographic. There is also a flat mirror that may be ordered for the dual grating turret option.
Ruled gratingsSelect for applications where high throughput or low groove density is required, or when working in the infrared. Typically, they have high throughput at the cost of higher stray light.
Holographic gratingsAvailable in higher groove densities for finer resolution requirements and are excellent choices for experiments with laser excitation such as Raman or laser induced photoluminescence. They provide the lowest possible stray light possible, sometimes at the cost of lower throughput.
Blazed holographic gratingsThese gratings have the same advantages as holographic gratings with better throughput.
Groove DensityRuled gratings and blazed holographic gratings have two fundamental parameters to choose from; the groove density, expressed in grooves (or lines) per millimeter, and the blaze angle which nominally refers to the peak reflectance wavelength expressed in nanometers.
The groove density of the selected grating affects the resolution and mechanical scanning range of the monochromator. Below is a reference chart showing the affect groove density has on the mechanical scanning range of the monochromator as well as the reciprocal linear dispersion of the slits.
Groove Density(gr/mm)
Wavelength Conversion
Factor
Typical Linear Dispersion (nm/mm)
Typical Array Resolution (nm)*
Typical Spectral Coverage (nm)*
Typical Spectral Range (nm)*
2400 1/2 2.63 ≤ .15 nm 70 0-5001800 2/3 3.50 ≤ .2nm 93 0-6671200 1 5.25 ≤ .3 nm 140 0-1000900 4/3 7.00 ≤ .4 nm 186 0-1333600 2 10.5 ≤ .6 nm 280 0-2000300 4 21.0 ≤ 1.2 nm 560 0-4000150 8 42.0 ≤ 2.4 nm 1120 0-8000
Below is a comprehensive list of available gratings for the HORIBA spectrometers. Other gratings are also available upon request.
*Values measured for MicroHR gratings using a 1024 element array with a 26 µm wide pixels and 12 µm entrance slit.
Groove Density gr/mm
Blaze Wavelength
Recommended Spectral Range
Wavelength
Blaze Angle
Part Number
Available Products
1800 330 nm 150-600 nm 17°27' 510 01MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
1800 500 nm 250-850 nm 26°45' 510-02MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
1800 630 nm 350-850 nm 34°32' 510 03 MicroHR, TRIAX 180/190 Gemini 180, iHR 320
1200 250 nm 150-500 nm 8°38' 510-04MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
1200 300 nm 200-700 nm 11°25' 510-05MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 400 nm 200-800 nm 13°53' 510-06MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 500 nm 250-950 nm 17°27' 510-07MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 630 nm 350-1200 nm 22°12' 510 08 MicroHR, TRIAX 180/190 Gemini 180
1200 750 nm 400-1200 nm 26°45' 510-09MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 1000 nm 500-1200 nm 36°52' 510-10MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
900 350 nm 200-700 nm 9°00' 510 91 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
900 550 nm 250-1100 nm 14°30' 510-93MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
900 1500 nm 600-1700 nm 42°27' 510-97MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
600 300 nm 200-600 nm 5°10’ 510-11MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
600 400 nm 250-800 nm 6°54' 510-12MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
Ruled Gratings
Click on Groove Density to view Spectral Efficiency Curve
Groove Density gr/mm
Blaze Wavelength
Recommended Spectral Range
Wavelength
Blaze Angle
Part Number
Available Products
600 500 nm 250-1000 nm 8°38' 510-13MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
600 750 nm 400-1500 nm 13°00' 510-14MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
600 1000 nm 500-1700 nm 17°27' 510-15MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
600 1500 nm 750-2400 nm 26°45' 510-16MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
600 2 µm 1000-2400 nm 36°52' 510-17MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
300 250 nm 150-500 nm 2°09' 510-50MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
300 500 nm 300-950 nm 4°18' 510-18MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
300 600 nm 350-1300 nm 5°10' 510-19MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
300 1000 nm 700-2000 nm 8°38' 510-20MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
300 2 µm 1100-4500 nm 17°27' 510-21MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
300 3 µm 1700-5000 nm 26°45' 510-22MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
300 4 µm 2000-5000 nm 36°52' 510-23MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
150 500 nm 250-950 nm 2°09' 510-49MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
150 1200 nm 800-2300 nm 5°10' 510-24MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
150 2 µm 1200-4000 nm 8°38' 510-25MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
150 4 µm 2.2-9 µm 17°27' 510-26MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
150 5 µm 3.5-10 µm 22°01' 510-27MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
Groove Density gr/mm
Blaze Wavelength
Recommended Spectral Range
Wavelength
Blaze Angle
Part Number
Available Products
150 6 µm 4-10 µm 26°45' 510 28 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
150 8 µm 5-10 µm 36°52' 510 29 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
120 2.5 µm 1.7-4.5 µm 8°39' 510-30MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
120 5 µm 3 - 10 µm 17°27' 510-31MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
120 7.5 µm 4.5-12 µm 26°45' 510-32MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
100 450 nm 250-950 nm 1°17’ 510-48MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
100 3 µm 1.7-6 µm 8°38' 510 33 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
100 6 µm 3-13 µm 17°27' 510 34 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
100 9 µm 5-14.5 µm 26°45' 510 35 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
75 4 µm 2-8 µm 8°38' 510-36MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
75 8 µm 5.5-17 µm 17°27' 510-37MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
75 12 µm 8-19 µm 26°45' 510-38MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
60 10 μm 7.5-13 μm 17°27’ 510-39MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
60 15 μm 9-24 μm 26°45’ 510-40MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
50 12 µm 8-22 µm 17°27' 510-42MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
50 18 µm 11-28 µm 26°45' 510-43MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
50 24 µm 15-30 µm 36°52' 510-44MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
Groove Density gr/mm
Blaze Wavelength
Recommended Spectral Range
Wavelength
Blaze Angle
Part Number
Available Products
40 22.5 µm 14-30 µm 26°45' 510 45 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
30 30 µm N/A 26°45' 510 46 MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550
20 45 µm N/A 26°45' 510 47 MicroHR, TRIAX 180/190 Gemini 180, iHR 320
Holographic Gratings
Groove Density gr/mm
Spectral Range
Part Number
Available Products
3600 150-450 nm 520-07MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000
3000 250-550 nm 520-09MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
2400 300-650 nm 520-12MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
2400 170-500 nm 520-13MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
2400 100-300 nm 520-14MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
2000 450-750 nm 520-15MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
2000 190-700 nm 520-16MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
2000 150-450 nm 520-17MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
2000 100-300 nm 520-18MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1800 450-850 nm 520-19MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
Click on Groove Density to view Spectral Efficiency Curve
Groove Density gr/mm
Spectral Range
Part Number
Available Products
1800 190-700 nm 520-20MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
1800 150-450 nm 520-21MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1800 100-300 nm 520 22MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200400-1300 nm
520-24MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
1200 190-700 nm 520-25MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
1200 150-450 nm 520-26MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
600400-1300 nm
520-29MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
600 150-450 nm 520-30TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
150 250-800 nm 520-32MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
150400-1200 nm
520-33MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
Groove Density gr/mm
Spectral Range
Blaze Angle
Part Number
Available Products
2400 190-700 nm 250 530-13MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
2400 240-750 nm 330 530-11MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M, 1250M
2400 300-800 nm 400 530-15MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1800 450-900 nm 500 530 19MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1800 190-700 nm 250 530-20MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1800 250-900 nm 400 530-18MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 190-450 nm 250 530-25MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 240-1200 nm 330 530-22MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 360-1250 nm 500 530-24MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 400-1300 nm 630 530-27MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 500-1500 nm 750 530-28MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
1200 600-1600 nm 900 530-50MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
950 700-1700 nm 900 530-60MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
900 700-1700 nm 850 530-66MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
600 360-1250 nm 500 530-29MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
600 700-1750 nm 1000 530 34MicroHR, TRIAX 180/190 Gemini 180, iHR 320/550, FHR 640/1000, 1000M
Blazed Holographic Gratings
Click on Groove Density to view Spectral Efficiency Curve
Spectral Efficiency Curve
Reference 510 01
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1800
Spectral Range (nm)
Blaze Wavelength (nm) 330
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510 01---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
200 250 300 350 400 450 500 550 600 650 700
wavelength (nm)
rela
tive
effi
cien
cy(%
)
unpolarized
510 01---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
Reference 510 01 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1800
Spectral Range (nm)
Blaze Wavelength (nm) 330
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
510-01
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
TOP
Spectral Efficiency Curve
Reference 510 02
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1800
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-02
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference : 510 02 ---Type : Plane Mechanically Ruled Grating
Groove Density(gr/mm)
Spectral Range(nm)
Blaze Wavelength(mm)
Blaze Angle(deg)
Configuration
1800 500 26°45’ Quasi-littrow
Date : may 99
510 02 ---
0102030405060708090
100
300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
TOP
Spectral Efficiency Curve
Reference 510 03
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1800
Spectral Range (nm)
Blaze Wavelength (nm) 630
Blaze Angle (deg) 34°32’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-03
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 03 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
300 350 400 450 500 550 600 650 700 750 800 850 900 950
wavelength (nm)
rela
tive
effi
cien
cy(%
)
TETM
510 03 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 03 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1800
Spectral Range (nm)
Blaze Wavelength (nm) 630
Blaze Angle (deg) 34°32’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 04
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 250
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-04
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 04 --- Type :
PLANE MECHANICALLY RULED GRATING
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
250
8°38’
Quasi-littrow
510 04 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : May 99 TOP
Spectral Efficiency Curve
Reference 510 05
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 300
Blaze Angle (deg) 11°25’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-05
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 05 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
300
11°25’
Quasi-littrow
510 05 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 06
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 400
Blaze Angle (deg) 13°53’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-06
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 06 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
400
13°53’
Quasi-littrow
510 06 ---
0102030405060708090100
300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : May 99
TOP
Spectral Efficiency Curve
Reference 510 07
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-07
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 07 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
500
17°27’
Quasi-littrow
510 07 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 08
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 630
Blaze Angle (deg) 22°12’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-08
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 08 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
630
22°12’
Quasi-littrow
510 08 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 09
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 750
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-09
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 09 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
750
26°45’
Quasi-littrow
510 09 ---
0102030405060708090100
300 450 600 750 900 1050 1200 1350 1500 1650
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 10
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 1000
Blaze Angle (deg) 36°52’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-10
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 10 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
1200
1
36°52’
Quasi-littrow
510 10 ---
0102030405060708090100
500 550 600 650 700 750 800 850 900 950 1000
wavelength (nm)
rela
tive
effic
ienc
y (%
)
k=1k=2
Date : JLD/march01
TOP
Spectral Efficiency Curve
Reference 510 11
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 300
Blaze Angle (deg) 5°10’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-11
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 11 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
300
5°10’
Quasi-littrow
510 11 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date: May 99 TOP
Spectral Efficiency Curve
Reference 510 12
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 400
Blaze Angle (deg) 6°54’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-12
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 12 --- Type :
PLANE MECHANICALLY RULED GRATING
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
400
6°54’
Quasi-littrow
510 12 ---
0102030405060708090100
300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date: May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 13
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-13
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 13 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
500
8°38’
Quasi-littrow
510 13 ---
0102030405060708090100
300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date: May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 14
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 750
Blaze Angle (deg) 13°00’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-14
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 14 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
750
13°00’
Quasi-littrow
510 14 ---
0102030405060708090100
400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date: May 99
TOP
Spectral Efficiency Curve
Reference 510 15
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 1000
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-15
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 15 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
1000
17°27’
Quasi-littrow
510 15 ---
0102030405060708090100
600 650 700 750 800 850 900 950 1000 1050 1100
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date: May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 16
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 1500
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-16
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 16 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000
wavelength (nm)
rela
tive
effi
cien
cy(%
)
TETM
510 16 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 16 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 1500
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 17
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (μm) 2
Blaze Angle (deg) 36°52’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-17
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 17 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000
wavelength (nm)
rela
tive
effi
cien
cy(%
)
TETM
510 17 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 17 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 2000
Blaze Angle (deg) 36°52’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 18
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 4°18’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-18
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 18 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
250 350 450 550 650 750 850 950
wavelength (nm)
rela
tive
effic
ienc
y(%
)
unpolarized
510 18 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 18 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 4°18’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 19
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 600
Blaze Angle (deg) 5°10’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-19
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 19 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
300
600
5°10’
Quasi-littrow
510 19 ---
0102030405060708090100
300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date: May 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 20
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 1000
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-20
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 20 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
300
---
1
8°38’
Quasi-littrow
Date : April 01
TOP
Spectral Efficiency Curve
Reference 510 21
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (μm) 2
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-21
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 21 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (nm)
Blaze Angle
(deg)
Configuration
300
2000
17°27’
Quasi-littrow
510 21 ---
0102030405060708090
1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : JLD/march01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 22
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (μm) 3
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-22
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 22 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7
wavelength (micron)
rela
tive
effi
cien
cy(%
)
TE
TM
510 22 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 22 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 3000
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 23
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (μm) 4
Blaze Angle (deg) 36°52’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-23
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 23 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7
wavelength (micron)
rela
tive
eff
icie
nc
y(%
)
TETM
510 23 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 23 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 4000
Blaze Angle (deg) 36°52’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 24
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (nm) 1200
Blaze Angle (deg) 5°10’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-24
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 24 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
150
1.2
5°10’
Quasi-littrow
510 24 ---
0102030405060708090100
0.7 0.9 1.1 1.3 1.5 1.7 1.9 2.1 2.3
wavelength (micron)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/march01
TOP
Spectral Efficiency Curve
Reference 510 25
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (μm) 2
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-25
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 25 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
1.2 1.4 1.6 1.8 2 2.2 2.4 2.6 2.8 3 3.2 3.4 3.6 3.8 4
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 25 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 25 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (µm) 2
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 26
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (μm) 4
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-26
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 26 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
150
4
17°27’
Quasi-littrow
Date : April 01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Spectral Efficiency Curve
Reference 510 27
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (μm) 5
Blaze Angle (deg) 22°01’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-27
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 27 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
1 2 3 4 5 6 7 8 9 10 11 12
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 27 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 27 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (µm) 5
Blaze Angle (deg) 22°01’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 30
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 120
Spectral Range (nm)
Blaze Wavelength (μm) 2.5
Blaze Angle (deg) 8°39’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-30
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 30 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
120
2.5
8°39’
Quasi-littrow
510 30 ---
0102030405060708090100
1 1.5 2 2.5 3 3.5 4 4.5 5
wavelength (micron)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/march01
TOP
Spectral Efficiency Curve
Reference 510 31
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 120
Spectral Range (nm)
Blaze Wavelength (μm) 5
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-31
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 31 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
1 2 3 4 5 6 7 8 9 10 11 12
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 31 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 31 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 120
Spectral Range (nm)
Blaze Wavelength (µm) 5
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 32
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 120
Spectral Range (nm)
Blaze Wavelength (μm) 7.5
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-32
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 32 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
4 5 6 7 8 9 10 11 12
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 32 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 32 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 120
Spectral Range (nm)
Blaze Wavelength (µm) 7.5
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 33
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (μm) 3
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-33
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 33 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 33 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 33 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (µm) 3
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 34
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (μm) 6
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-34
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 34 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
2 3 4 5 6 7 8 9 10 11 12 13 14 15
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 34 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 34 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (µm) 6
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Theoretical Efficiency Curve
Reference 510 35
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (μm) 9
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-35
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 35 ---
THEORETICAL EFFICIENCY CURVE
0102030405060708090
100
3 5 7 9 11 13 15 17 19 21 23 25
wavelength (micron)
rela
tive
effi
cien
cy(%
)
510 35 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 35 ---Grating Type Ruled Plane Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (µm) 9
Blaze Angle (deg) 26°45’
Configuration
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Theoretical Efficiency Curve
Reference 510 36
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 75
Spectral Range (nm)
Blaze Wavelength (μm) 4
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-36
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Theoretical Grating Efficiency Ref. 51036
75 gr/mm blazed at 4 microns
0
10
20
30
40
50
60
70
80
90
100
1000 2000 3000 4000 5000 6000 7000 8000
Wavelength, nm
Relative Efficiency
TM
TE
unpolarized
LMC November, 2011. FOR REFERENCE ONLY, NOT TO BE USED AS A SPECIFICATION
Spectral Efficiency Curve
Reference 510 37
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 75
Spectral Range (nm)
Blaze Wavelength (μm) 8
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-37
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 37 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 37 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 37 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 75
Spectral Range (nm)
Blaze Wavelength (µm) 8
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 38
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 75
Spectral Range (nm)
Blaze Wavelength (μm) 12
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-38
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 38 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 38 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 38 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 75
Spectral Range (nm)
Blaze Wavelength (µm) 12
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 39
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 60
Spectral Range (nm)
Blaze Wavelength (μm) 10
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-39
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 39 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
6 7 8 9 10 11 12 13 14
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 39 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 39 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 60
Spectral Range (nm)
Blaze Wavelength (µm) 10
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 40
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 60
Spectral Range (nm)
Blaze Wavelength (μm) 15
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-40
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
510 40 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
wavelength (micron)
rela
tive
effi
cien
cy(%
)
unpolarized
510 40 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 40 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 60
Spectral Range (nm)
Blaze Wavelength (µm) 15
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Spectral Efficiency Curve
Reference 510 41
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 50
Spectral Range (nm)
Blaze Wavelength (μm) 6
Blaze Angle (deg) 8°38’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-41
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
SPECTRAL EFFICIENCY CURVE
Reference :
510 41 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
50
6
8°38’
Quasi-littrow
510 41 ---
0102030405060708090100
3 4 5 6 7 8 9 10 11 12 13 14
wavelength (micron)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/march01
TOP
Theoretical Efficiency Curve
Reference 510 42
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 50
Spectral Range (nm)
Blaze Wavelength (μm) 12
Blaze Angle (deg) 17°27’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-42
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Theoretical Grating Efficiency Ref. 5104250 gr/mm blazed at 12 microns
0
10
20
30
40
50
60
70
80
90
100
5 7 9 11 13 15 17 19 21 23 25
Wavelength, microns
Effic
ienc
y
UnpolarizedTMTE
LMC April, 2010. FOR REFERENCE ONLY, NOT TO BE USED AS A SPECIFICATION TOP
Theoretical Efficiency Curve
Reference 510 43
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 50
Spectral Range (nm)
Blaze Wavelength (μm) 18
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-43
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Theoretical Grating Efficiency Ref. 5104350 gr/mm blazed at 18 microns
0
10
20
30
40
50
60
70
80
90
100
5 10 15 20 25 30 35
Wavelength, microns
Effic
ienc
y
UnpolarizedTMTE
LMC April, 2010. FOR REFERENCE ONLY, NOT TO BE USED AS A SPECIFICATION
TOP
Theoretical Efficiency Curve
Reference 510 44
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 50
Spectral Range (nm)
Blaze Wavelength (μm) 24
Blaze Angle (deg) 36°52’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-44
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Theoretical Grating Efficiency Ref. 5104450 gr/mm blazed at 24 microns
0
10
20
30
40
50
60
70
80
90
100
10 15 20 25 30 35
Wavelength, microns
Effic
ienc
y
Unpol.TMTE
LMC April, 2010. FOR REFERENCE ONLY, NOT TO BE USED AS A SPECIFICATION
TOP
Theoretical Efficiency Curve
Reference 510 45
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 40
Spectral Range (nm)
Blaze Wavelength (μm) 22.5
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-45
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Theoretical Grating Efficiency Ref. 5104540 gr/mm blazed at 22.5 microns
0
10
20
30
40
50
60
70
80
90
100
5 15 25 35 45
Wavelength, microns
Effic
ienc
y
TMTE
LMC May, 2010. FOR REFERENCE ONLY, NOT TO BE USED AS A SPECIFICATION
TOP
Theoretical Efficiency Curve
Reference 510 47
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 20
Spectral Range (nm)
Blaze Wavelength (μm) 45
Blaze Angle (deg) 26°45’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-47
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Theoretical Grating Efficiency Ref. 5104720 gr/mm blazed at 45 microns
0
10
20
30
40
50
60
70
80
90
100
20 30 40 50 60 70 80
Wavelength, microns
Effic
ienc
y
TMTE
LMC May, 2010. FOR REFERENCE ONLY, NOT TO BE USED AS A SPECIFICATION
TOP
Reference 510 48
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 100
Spectral Range (nm)
Blaze Wavelength (nm) 450
Blaze Angle (deg) 1°17’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-48
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 48 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (nm)
Blaze Angle
(deg)
Configuration
100
450
1°17’
Quasi-littrow
Date : April 01 TOP
Reference 510 49
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 150
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 2°09’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-49
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 49 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
150
500
2°09’
Quasi-littrow
510 49 ---
0102030405060708090100
300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : May 99
TOP
Reference 510 50
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 300
Spectral Range (nm)
Blaze Wavelength (nm) 250
Blaze Angle (deg) 2°09’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-50
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 50 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
300
250
2°09’
Quasi-littrow
510 50 ---
0102030405060708090100
200 250 300 350 400 450 500
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : May 99
TOP
Reference 510 52
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 147
Spectral Range (nm)
Blaze Wavelength (nm) 300
Blaze Angle (deg) 1°16’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-52
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 52 --- Type :
PLANE MECHANICALLY RULED GRATING
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
147
300
1°16’
Quasi-littrow
510 52 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : May 99
TOP
Reference 510 56
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 75
Spectral Range (nm)
Blaze Wavelength (nm) 1500
Blaze Angle (deg) 3°20’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-56
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 56 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
75
1500
3°20’
Quasi-littrow
Maximum size : 68x68 mm
510 56---
0102030405060708090
100
350 400 450 500 550 600 650 700 750
wavelength (nm)
relat
ive ef
ficien
cy (%
)
Order 3Order 2
Date : August 02 TOP
Reference 510 66
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 275
Blaze Angle (deg) 4°44’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-66
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 66 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
275
4°44’
Quasi-littrow
510 66 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : mai 99
Reference 510 91
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 900
Spectral Range (nm)
Blaze Wavelength (nm) 350
Blaze Angle (deg) 9°00’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-91
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
510 91 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effi
cien
cy(%
)
TETM
510 91 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 91 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 900
Spectral Range (nm)
Blaze Wavelength (nm) 350
Blaze Angle (deg) 9°00’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Reference 510 93
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 900
Spectral Range (nm)
Blaze Wavelength (nm) 550
Blaze Angle (deg) 14°30’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-93
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
510 93 ---
SPECTRAL EFFICIENCY CURVE
0102030405060708090
100
300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effi
cien
cy(%
)
TETM
510 93 ---
Japan: +81 (0) 3 3861 8231Italy: +39 0 2 57603050
USA: +1-732-494-8660 Germany: +49 (0) 89 46 23 17- 0China: +86 (0)10 6849 2216
France: +33 (0) 1 64 54 13 00UK: +44 (0) 20 8204 8142Other Countries: +33 (0) 1 64 54 13 00
Find us at www.jobinyvon.com or telephone:
Reference 510 93 ---Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 900
Spectral Range (nm)
Blaze Wavelength (nm) 550
Blaze Angle (deg) 14°30’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
TOP
Reference 510 97
Grating Type Plane Mechanically Ruled Grating
Groove Density (gr/mm) 900
Spectral Range (nm)
Blaze Wavelength (nm) 1500
Blaze Angle (deg) 42°30’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
510-97
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
510 97 --- Type :
Plane Mechanically Ruled Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (micron)
Blaze Angle
(deg)
Configuration
900
1.5
42°30’
Quasi-littrow
510 97 ---
0102030405060708090100
0.5 0.7 0.9 1.1 1.3 1.5 1.7 1.9 2.1 2.3 2.5
wavelength (micron)
rela
tive
effic
ienc
y (%
)
TE
TM
Date : JLD/march01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 520 07
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 3600
Spectral Range (nm) 150-450
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-07
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 07 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
3600
150-450
---
---
Quasi-littrow
520 07
01020304050607080
150 170 190 210 230 250 270 290 310 330 350 370 390 410 430 450
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
Date : Aug 99
TE = Parallel Polarization TM = Perpendicular Polarization
1
TOP
Reference 520 12
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 2400
Spectral Range (nm) 300 – 650
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-12
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 12 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
2400
300 – 650
---
---
Quasi-littrow
520 12
0102030405060708090100
300 325 350 375 400 425 450 475 500 525 550 575 600 625 650
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 520 13
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 2400
Spectral Range (nm) K= 1 : 170 – 500 K=2 :
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Dev =15°
520-13
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 13 --- Type :
PLANE HOLOGRAPHIC GRATING
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
2400
K= 1 : 170 – 500
K=2 :
---
--- Dev =15°
520 13 : dev = 15°
0
20
40
60
80
100
100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
k=1_TEk=1_TM
520 13 : dev = 15°
0
10
20
30
40
50
110 120 130 140 150 160 170 180 190 200 210 220 230 240 250
wavelength (nm )
rela
tive
effic
ienc
y (%
)
k=2_TEk=2_TM
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 520 14
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 2400
Spectral Range (nm) 100 – 300
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-14
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 14 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
2400
100-300
---
---
Quasi-littrow
510 14 ---
0102030405060708090100
50 100 150 200 250 300 350
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/April01
TOP
Reference 520 15
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 2000
Spectral Range (nm) 450 - 750
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-15
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 15 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
2000
450 - 750
---
---
Quasi-littrow
520 15
0
20
40
60
80
100
400 425 450 475 500 525 550 575 600 625 650 675 700 725 750 775 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
Date : JLD/May01
TE = Parallel Polarization TM = Perpendicular Polarization
1
TOP
Reference 520 16
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 2000
Spectral Range (nm) 200 - 700
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-16
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 16 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
2000
200 - 700
---
---
Quasi-littrow
520 16
0
20
40
60
80
100
200 250 300 350 400 450 500 550 600 650 700 750
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TE
TM
unpolarized
Date : JLD/May01
TE = Parallel Polarization TM = Perpendicular Polarization
1
TOP
Reference 520 17
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 2000
Spectral Range (nm) 150 - 450
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-17
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 17 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
2000
150 - 450
---
---
Quasi-littrow
520 17
0
20
40
60
80
100
125 175 225 275 325 375 425 475
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1 TOP
Reference 520 19
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 1800
Spectral Range (nm) 450 – 850
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-19
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 19 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1800
450 – 850
Quasi-littrow
520 19
0102030405060708090100
300 350 400 450 500 550 600 650 700 750 800 850
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 520 20
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 1800
Spectral Range (nm) 200 - 700
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-20
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 20 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1800
200 - 700
---
---
Quasi-littrow
520 20
0
20
40
60
80
100
175 225 275 325 375 425 475 525 575 625 675 725 775
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1 TOP
Reference 520 21
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 1800
Spectral Range (nm) 150 - 450
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-21
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 21 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1800
150 - 450
---
---
Quasi-littrow
520 21
0
20
40
60
80
100
100 150 200 250 300 350 400 450 500 550 600
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 24
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 1200
Spectral Range (nm) 400 - 1300
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-24
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 24 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
400 - 1300
---
---
Quasi-littrow
520 24
0
20
40
60
80
100
300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 25
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 1200
Spectral Range (nm) 190 – 700
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-25
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 25 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
190 – 700
---
---
Quasi-littrow
520 25
0
20
40
60
80
100
100 200 300 400 500 600 700 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 26
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 1200
Spectral Range (nm) 150 – 450
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-26
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 26 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
150 – 450
---
---
Quasi-littrow
520 26
0
20
40
60
80
100
100 200 300 400 500 600 700 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 29
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 600
Spectral Range (nm) 400 – 1300
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-29
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 29 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
400 – 1300
---
---
Quasi-littrow
520 29
0
20
40
60
80
100
300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 30
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 600
Spectral Range (nm) 150 – 450
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-30
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 30 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
150 – 450
---
---
Quasi-littrow
520 30
0
20
40
60
80
100
100 150 200 250 300 350 400 450 500 550 600
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 32
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 150
Spectral Range (nm) 250 – 800
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-32
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 32 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
150
250 – 800
---
---
Quasi-littrow
520 32
0
20
40
60
80
100
200 300 400 500 600 700 800 900
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 520 33
Grating Type Plane Holographic Grating
Groove Density (gr/mm) 150
Spectral Range (nm) 400 – 1200
Blaze Wavelength (nm)
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
520-33
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
520 33 --- Type :
Plane Holographic Grating
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
150
400 – 1200
---
---
Quasi-littrow
520 33
0
20
40
60
80
100
300 400 500 600 700 800 900 1000 1100
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : JLD/May01
1
TOP
Reference 530 11
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 2400
Spectral Range (nm) 240 - 750
Blaze Wavelength (nm) 330
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-11
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference : 530 11 ---Type : Plane Holographic Grating Blazed By Ion Etching.
Groove Density(gr/mm)
Spectral Range(nm)
Blaze Wavelength(nm)
Blaze Angle(deg)
Configuration
2400 240 - 750 330 --- Quasi-littrow
TE = Parallel PolarizationTM = Perpendicular Polarization
Date : April 01 TOP
Reference 530 13
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 2400
Spectral Range (nm) 190 - 700
Blaze Wavelength (nm) 250
Blaze Angle (deg) 17.5
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-13
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 13 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (nm)
Blaze Angle
(deg)
Configuration
2400
190 - 700
250
17.5
Quasi-littrow
Date : April 01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 15
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 2400
Spectral Range (nm) 240 - 750
Blaze Wavelength (nm) 330
Blaze Angle (deg)
Configuration Quasi-littrow
530-15
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
TOP
Reference 530 19
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1800
Spectral Range (nm) 300 - 1100
Blaze Wavelength (nm) 500
Blaze Angle (deg) 26.45°
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-19
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
530 19
Quasi-Littrow26.45°500300 - 11001800
configurationblaze angle(deg)
blaze wavelength(nm)
spectral range(nm)
groove density(gr/mm)
Blazed holographic plane gratingType:
530 19Reference:
THEORETICAL EFFICIENCY CURVE
0
10
20
30
40
50
60
70
80
90
300 400 500 600 700 800 900 1000 1100
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
TOP
Reference 530 20
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1800
Spectral Range (nm) 190 - 700
Blaze Wavelength (nm) 250
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-20
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 20 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (nm)
Blaze Angle
(deg)
Configuration
1800
190 - 700
250
---
Quasi-littrow
Date : April 01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 22
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1200
Spectral Range (nm) 190-800
Blaze Wavelength (nm) 330
Blaze Angle (deg) 11.4°
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-22
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 22 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
190-800
330
11.4°
Quasi-littrow
530 22 ---
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : Dec 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 24
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1200
Spectral Range (nm) 300-1200
Blaze Wavelength (nm) 500
Blaze Angle (deg) 17.45°
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-24
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 24 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
300-1200
500
17.45°
Quasi-littrow
530 24 ---
0102030405060708090100
300 400 500 600 700 800 900 1000 1100 1200
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETM
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 25
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1200
Spectral Range (nm)
Blaze Wavelength (nm) 250
Blaze Angle (deg) 8°37’
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-25
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 25 --- Type :
Plane Holographic Grating Blazed By Ion Etching
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
250
8°37’
Quasi-littrow
530 25
0102030405060708090100
200 250 300 350 400 450 500 550 600 650 700 750 800
wavelength (nm)
rela
tive
effic
ienc
y (%
)
unpolarized
Date : June 99 TOP
Reference 530 27
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1200
Spectral Range (nm) 400 - 1300
Blaze Wavelength (nm) 630
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-27
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 27 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (nm)
Blaze Angle
(deg)
Configuration
1200
400 - 1300
630
---
Quasi-littrow
Date : April 01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 28
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1200
Spectral Range (nm) 500 - 1500
Blaze Wavelength (nm) 750
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-28
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 28 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (nm)
Blaze Angle
(deg)
Configuration
1200
500 - 1500 750
---
Quasi-littrow
Date : April 01
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 29
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 600
Spectral Range (nm)
Blaze Wavelength (nm) 500
Blaze Angle (deg) 8.6°
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-29
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 29 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
600
---
500
8.6°
Quasi-littrow
530 29
0102030405060708090100
300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000
wavelength (nm)
abso
lute
effi
cien
cy (%
)
TETM
Date : Dec 99
TE = Parallel Polarization TM = Perpendicular Polarization
TOP
Reference 530 50
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 1200
Spectral Range (nm) 400-1100
Blaze Wavelength (nm) 900
Blaze Angle (deg) 32.6°
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-50
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 50 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
1200
400-1100
900
32.6°
Quasi-littrow
530 50 ---
0102030405060708090100
400 500 600 700 800 900 1000 1100
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization
1
TOP
Reference 530 60
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 900
Spectral Range (nm) 700 - 1700
Blaze Wavelength (nm) 950
Blaze Angle (deg)
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-60
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference : 530 60 ---Type : Plane Holographic Grating Blazed By Ion Etching.
Groove Density(gr/mm)
Spectral Range(nm)
Blaze Wavelength(nm)
Blaze Angle(deg)
Configuration
900 700 - 1700 950 --- Quasi-littrow
TE = Parallel PolarizationTM = Perpendicular Polarization
Date : April 01
TOP
Reference 530 66
Grating Type Plane Holographic Grating Blazed By Ion Etching
Groove Density (gr/mm) 900
Spectral Range (nm) 600-1800
Blaze Wavelength (nm) 850
Blaze Angle (deg) 24°
Configuration Quasi-littrow
This efficiency curve should be used as reference only and does not imply any guarantee on actual performance. Actual performance of the grating will depend on several variables including the usage geometry and the coating. Efficiency curves labeled as “Theoretical” are calculated estimates of performance based on groove profile.
530-66
USA: +1 732 494 8660 France: +33 (0)1 69 74 72 00 Germany: +49 (0) 6251 8475 20UK: +44 (0)1604 542 500 Italy: +39 06 51 59 22 1 Japan: +81 (0)3 6206 4721China: +86 (0)21 6289 6060 Brazil: + 55 (0)11 2923 5400 Other: +1 732 494 8660
[email protected] www.horiba.com/scientifi c
Spectral Efficiency Curve
SPECTRAL EFFICIENCY CURVE
Reference :
530 66 --- Type :
Plane Holographic Grating Blazed By Ion Etching.
Groove Density
(gr/mm)
Spectral Range
(nm)
Blaze
Wavelength (mm)
Blaze Angle
(deg)
Configuration
900
600-1800
850
24°
Quasi-littrow
530 66 ---
0102030405060708090100
600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000
wavelength (nm)
rela
tive
effic
ienc
y (%
)
TETMunpolarized
Date : June 99
TE = Parallel Polarization TM = Perpendicular Polarization