Optical Filter Characteristics
Optical Filter Characteristics
Optical Filter Design
In addition to being deposited on the surface of an optical component, optical coatings can also be incorporated into a single element through deposition on one or many substrates followed by a lamination process. These elements are referred to as optical filters and are used to carefully control or filter the transmission of light. The process of filtering may be accomplished by using coatings that absorb, reflect, or transmit certain portions of the incident radiation. Optical filters can be manufactured in many physical forms and can involve single or multiple elements. An individual filter can be fabricated by applying soft coatings to separate substrate plates that are then laminated together or hard coatings deposited on different components that are then mechanically assembled together. The choice of the method of filtering, the physical form of the filter, the method of assembly of the filter, and the coating technology used to coat the optical filter substrates, will depend upon the constraints imposed by the filter specifications. Some of the most important parameters associated with the specifications of an optical filter are environmental operating conditions, physical dimensions, durability, optical surface quality, and, most importantly, the spectral filter parameters.
Dichroic filters separate a broad spectrum of light into two components: a reflected component and a transmitted component. These filters provide the ability to select different bands from a spectrum and direct those bands to where they can either be used or discarded. Figure 1 shows two examples of dichroic filters: a heat control dichroic filter can be used to remove heat associated with NIR light from an optical system and a dichroic laser beam combiner efficiently combines or separates multiple laser beams at a 45° angle of incidence.
Dichroic Filters
Bandpass Filters
Related Topics
Optical Components
- Optical Mirror Physics
- Optical Lens Physics
- Diffraction Grating Physics
- Optical Coatings
- Polarization Optics
Optical Systems