Infrared lensglasses

Infrared lensmaterial

Infrared cameras don’t work the same way as regular, visible light cameras. Regular cameras function more or less the same way as a human eye, receiving radiation in the visible light spectrum and turning it into an image. Infrared cameras, on the other hand, make images from heat, aka infrared or thermal radiation, instead of visible light.

Infrared lensfilter

Aspherical lenses are designed to have a much shorter focal length than is possible with regular spherical lenses. They are also corrected for spherical and coma aberrations. Ideally suited for low f-number and high throughput application, condenser quality aspheres are primarily used in high efficiency illumination systems.

Infraredeyelens

It’s for this reason that FLIR camera lenses are made of germanium or other materials that are transparent in the infrared spectrum.

Infrared radiation behaves very differently from visible light. Because of this, infrared camera lenses need to be made from different materials than regular cameras. The properties for a given material in the visible world might have no bearing on its properties in the infrared world—glass, for instance, is extremely transparent to radiation in the visible spectrum, but in infrared, glass is completely opaque:

The opposite can be true. Germanium, a semi-metallic element similar to silicon, is completely opaque in the visible world:

IR camera lenses are made out of substances like germanium, or other materials with low absorption in the infrared spectrum. But why is it necessary to use these specialized components instead of a more common substance like glass?