DE-R 214 Diffractive Optical Element
• Element Number: DE-R 214
• Current Product Revision: A
• Description: Cross – 2 @ 650
• Number of Spots on Line: 87
• Substrate Material: Polycarbonate (PC)
• Size (Ø x Thickness): 8 x 1.2 mm
• Design Wavelengths: 645 nm
• Recommended Wavelength Range: 600-645 nm
• Minimum Recommended Beam Diameter: 2-3 mm
Within the recommended wavelength range, the zeroth order is not brighter than the rest of the cross. Pattern size and pattern angles and the intensity in the undiffracted central spot ('zero order intensity', see reverse page) will vary most with the wavelength. Diffraction efficiencies given on this datasheet have been measured using elements of product revision A.
Pattern Geometry and Diffraction Angles
Wavelength
Patttern Size @ 100 mm Distance
Pattern Angle
a
α
450 nm
2.4 mm
1.38 °
515 nm
2.8 mm
1.58 °
532 nm
2.8 mm
1.63 °
635 nm
3.4 mm
1.94 °
650 nm
3.5 mm
1.99 °
730 nm
3.9 mm
2.2 °
780 nm
4.2 mm
2.4 °
808 nm
4.3 mm
2.5 °
Setup
Laser diodes are the most common light source to be used with diffractive optical elements, but other laser light sources may also be used.
The DOEs are best used with collimated or convergent laser sources. The microstructure surface should be oriented towards the laser.
The 0-order spot is equivalent in size and shape to the original beam, but its power is attenuated.
Diffraction Zero Order Intensity:
Wavelength
0-Order Intensity
488
14.4 %
515
11.4 %
532
9.2 %
594
1.6 %
638
1.7 %
654
2.3 %
687
4.9 %
MOUNTED VERSION
For testing or setups under laboratory conditions we offer a version mounted in 12.7 mm stainless steel frame for use with standard laboratory holders.
COLLIMATED / CONVERGI NG LASER
The laser can be collimated for long range use or converging for a fixed working distance. Please note that the size/thickness of each spot or line depends on the focusing of the laser.
描述 [描述] Design Wavelengths: 645 nm