Abrisa Technologies Datasheets for Optical Mirrors

Optical mirrors have a smooth, highly-polished, plane or curved surface for reflecting light. Usually, the reflecting surface is a thin coating of silver, or aluminum on glass.
Optical Mirrors: Learn more

Product Name Notes
An emerging trend in hotel, restaurant, and retail displays is the use of aesthetically pleasing high performance Semi-Transparent Mirrors to create a hidden smart display mirror combination. The display unit...
An emerging trend in hotel, restaurant, and retail displays is the use of aesthetically pleasing high performance Semi-Transparent Mirrors to create a visually dynamic display/mirror combination. The display unit is...
Extended Hot mirror filters transmit the visible spectrum and reflect the infrared at normal incidence. The average transmission is specified to be more than 85% from 425-675nm and average reflectance...
Hot Mirrors are designed to remove (reflect) infrared heat in an optical system and transmit visible energy. The HM-VS-1150 Hot Mirror, formerly known as Hot Mirror #102, design has been...
Most light sources produce more heat (infrared energy) than light. By placing a hot mirror in the beam path the infrared (heat) energy can be reflected away and the visible...
Our best grade Hot Mirror formerly known as Hot Mirror #101. For applications where extreme infrared heat and damaging U.V. radiation are of concern; the U.V. Hot Mirror is an...
Our HM-VS-3000 filter combines reflectance and absorptance to block a very wide band in the infrared while maintaining good visible transmittance.
The front surface of the enhanced aluminum mirror coating reflects an average of 93% over the visible spectrum (450-650nm). Back surface reflective aluminum coatings are also available. Metal mirror coatings...
The protected gold mirror coating reflects an average of 97% over the spectrum (700-2000nm). This coating can also be used for IR wavelength bands 3-5nm and 8-12nm. Metal mirror coatings...
These hot mirror filters transmit the visible spectrum and reflect the infrared at normal incidence and offer reliable solutions for commercial applications.
This cold mirror filter is designed to operate at 0 degrees angle of incidence. It reflects the visible spectrum and transmits heat (infrared). The average reflectance is greater than 95%...
This cold mirror is designed to operate at a 45 degree angle of incidence. It reflects the visible spectrum and transmits the heat (infrared). The average reflectance is greater than...
This cold mirror is specially designed to reflect more than 95% average of ultra-violet rays from 350-450nm and transmit more than 90% average 550-1200nm at 45 degrees angle of incidence.
This design is very standard and often uses for demanding telescope and other very high performance imaging applications. Reflectance may be specified for IR wavelengths. Metal mirror coatings are often...
UV Hot mirror filters are specially designed to transmit more than 80% on average from 245-460nm and reflect more than 70% in average from 800-1050nm at normal incidence. Custom angles...