Excellent Collecting Optics for Infrared Detectors
Minimal Absorption Loss in the 8-14 micron Region
IR Fresnel lenses are molded in a flexible, 0.015" (0.457mm) thick, milky white plastic. Advantages of this product are: least absorption loss in the 8-14 micron region, extremely thin with consistent thickness across the lens, large apertures and minimal thermal expansion. The design of an infrared-transmittin
g Fresnel lens involves many complex considerations. The grooved side of a Fresnel lens should face the longer conjugate (away from the detector when used to collect radiation). If the smooth side needs to face the longer conjugate for some nonoptical reason, the maximum aperture of the lens should be F1.0. In this case, total internal reflection keeps all radiation from the area of the lens past F1.0 from reaching the image. Even when the grooves face the longer conjugate, the portion of the lens past F1.0 contributes a diminished amount and there is no significant contribution past F0.5.
- Excellent Collecting Optics for Infrared Detectors
- Minimal Absorption Loss in the 8-14 micron Region
IR Fresnel lenses are molded in a flexible, 0.015" (0.457mm) thick, milky white plastic. Advantages of this product are: least absorption loss in the 8-14 micron region, extremely thin with consistent thickness across the lens, large apertures and minimal thermal expansion. The design of an infrared-transmitting Fresnel lens involves many complex considerations. The grooved side of a Fresnel lens should face the longer conjugate (away from the detector when used to collect radiation). If the smooth side needs to face the longer conjugate for some nonoptical reason, the maximum aperture of the lens should be F1.0. In this case, total internal reflection keeps all radiation from the area of the lens past F1.0 from reaching the image. Even when the grooves face the longer conjugate, the portion of the lens past F1.0 contributes a diminished amount and there is no significant contribution past F0.5.