Infrared-blocking filter placed in front of the camera sensor to reject IR radiation and prevent color shifts caused by infrared light.
Technical Details
Hot mirrors utilize up to 50 alternating layers of materials such as titanium dioxide (TiO₂) and silicon dioxide (SiO₂) with thicknesses of 50-200 nanometers. The cutoff wavelength typically lies between 680-720 nm, with the transition band being only 10-20 nm wide. Standard film formats use hot mirrors with a 45° angle of incidence in beam splitter cubes or as flat filters directly in front of the sensor. High-quality versions achieve an optical density of 4.0 in the IR range and exhibit reflection losses below 0.5%.
History & Development
The first hot mirrors emerged in 1950 at Bell Laboratories for military night vision devices. Eastman Kodak adapted the technology in 1963 for professional film cameras to prevent thermal damage to film emulsions. With the introduction of digital sensors in 1999, hot mirrors gained new significance, as CCD and CMOS chips exhibit high IR sensitivity. Modern multispectral coatings since 2010 combine hot mirror properties with UV blocking and anti-reflection coatings.
Practical Application in Film
In "Mad Max: Fury Road" (2015), hot mirrors prevented color shifts caused by intense desert radiation on RED Dragon cameras. Roger Deakins systematically used them in "Blade Runner 2049" (2017) for consistent skin tones under mixed lighting from daylight and artificial light. Hot mirrors eliminate the typical magenta cast that occurs with high IR exposure on digital sensors. In green screen productions, they prevent IR spill from lighting fixtures, which causes keying problems. The filter also reduces thermal noise during longer takes or at high ISO values.
Comparison & Alternatives
In contrast to cold mirrors, which transmit IR and reflect visible light, hot mirrors completely block thermal radiation. UV/IR cut filters combine both functions but often exhibit poorer optical properties. For low-light shooting, hot mirrors can be replaced by switchable IR blocking filters that are deactivated at night. Modern cameras like the ARRI Alexa Mini LF integrate hot mirror coatings directly into the sensor window, making external filters obsolete.