Abstract: This disclosure is directed to an optic having a composited MgO—MgF2 infrared anti-reflective coating that is suitable for use in LWIR, MWIR and SWIR ranges, and is particularly suitable for use in the LWIR range. The coated optic disclosed herein passes the severe abrasion test with a barring force between 2 pounds and 2.5 pounds. The MgO—MgF2 infrared anti-reflective coating has a thickness in the range of 500 nm to 1500 nm and a reflectance value Rx at 12° of less than 2% in the wavelength range of 7.25 nm to 11.75 nm.

Abstract: This disclosure is directed to an optic having a composited MgO—MgF2 infrared anti-reflective coating that is suitable for use in LWIR, MWIR and SWIR ranges, and is particularly suitable for use in the LWIR range. The coated optic disclosed herein passes the severe abrasion test with a barring force between 2 pounds and 2.5 pounds. The MgO—MgF2 infrared anti-reflective coating has a thickness in the range of 500 nm to 1500 nm and a reflectance value Rx at 12° of less than 2% in the wavelength range of 7.25 nm to 11.75 nm.

Abstract: The disclosure is directed to a method of making yttrium oxide, Y2O3, coatings on substrates suitable for use at infrared wavelengths, including use in the 2-12 ?m range. The coating method eliminates or substantially eliminates the absorptions peaks that typically appear at approximately 3.0 ?m, 6.6 ?m and 7.1 ?m. This is achieved by using Y metal as the yttrium source in combination with an oxygen-containing plasma to form the Y2O3, coating in place of the using Y2O3 as the coating material source The disclosure is further directed to optics suitable for use in the infrared that have such coatings. The transmission spectrum of the coated substrate made according to the method described herein is greater than the transmission spectrum of the uncoated substrate over the wavelength range of 4 ?m to 12 ?m.

Abstract: This disclosure is directed to an optic having a composited MgO—MgF2 infrared anti-reflective coating that is suitable for use in LWIR, MWIR and SWIR ranges, and is particularly suitable for use in the LWIR range. The coated optic disclosed herein passes the severe abrasion test with a barring force between 2 pounds and 2.5 pounds. The MgO—MgF2 infrared anti-reflective coating has a thickness in the range of 500 nm to 1500 nm and a reflectance value Rx at 12° of less than 2% in the wavelength range of 7.25 nm to 11.75 nm.