Contracted from the term micro reciprocal degree, the mired (/ˈmaɪrɛd/[1]) is a unit of measurement used to express color temperature. Values in mireds are calculated by the formula:
where T is the colour temperature in units of kelvins and M denotes the resulting mired dimensionless number. The constant 1000000 K is one million kelvins.
The SI term for this unit is the reciprocal megakelvin (MK−1), shortened to mirek, but this term has not gained traction.[2]
For convenience, decamireds are sometimes used, with each decamired equaling ten mireds.
The use of the term mired dates back to Irwin G. Priest's observation in 1932 that the just noticeable difference between two illuminants is based on the difference of the reciprocals of their temperatures, rather than the difference in the temperatures themselves.[3]
Examples
editA blue sky, which has a color temperature T of about 25000 K, has a mired value of M = 40 mireds, while a standard electronic photography flash, having a color temperature T of 5000 K, has a mired value of M = 200 mireds.
Light source | Temp. (K) | Mired |
---|---|---|
Skylight (clear, blue) | 15000–27000 | 40–70 |
Shade, illuminated by skylight | 10000–12000 | 80–100 |
Skylight (hazy) | 7500–8400 | 120–130 |
Overcast | 6700–7000 | 140–150 |
Electronic flash | 6200–6800 | 150–160 |
Sunlight (hazy) | 5800 | 170 |
Daylight (average) | 5500–6000 | 170–180 |
Daylight (morning / afternoon) | 5000–5500 | 180–200 |
LED (cool white)[5] | 3100–4500 | 220–320 |
Professional tungsten | 3200 | 310 |
Incandescent bulb (100 W) | 2900 | 340 |
Incandescent bulb (40 W) | 2650 | 380 |
Applications
editPhotographic filter and gel
editIn photography, mireds are used to indicate the color temperature shift provided by a filter or gel for a given film and light source. For instance, to use daylight film (5700 K) to take a photograph under a tungsten light source (3200 K) without introducing a color cast, one would need a corrective filter or gel providing a mired shift
This corresponds to a color temperature blue (CTB) filter.[6][7] Color gels with negative mired values appear green or blue, while those with positive values appear amber or red.
CCT calculation
editA number of mathematical methods, including Robertson's, calculate the correlated color temperature of a light source from its chromaticity values. These methods exploit the relatively even spacing of the mired uint internally.[8]
Color description
editApple's HomeKit uses the mired unit for specifying color temperature.[9]
References
edit- ^ How Many? A Dictionary of Units of Measurement (PDF). Pasig City. 20 March 2013. p. 239.
{{cite book}}
: CS1 maint: location missing publisher (link) - ^ Ohta, Noboru; Robertson, Alan R. (2005). Colorimetry: Fundamentals and Applications. Wiley. p. 84. ISBN 0-470-09472-9.
- ^ Priest, Irwin G. (February 1932). "A proposed scale for use in specifying the chromaticity of incandescent illuminants and various phases of daylight" (abstract). JOSA. 23 (2): 41–45. doi:10.1364/JOSA.23.000041.
- ^ Smith, Robb (1975). The Tiffen practical filter manual. American Photographic Book Publishing Co., Inc. ISBN 0-8174-0180-6. LCCN 75-21574.
- ^ "Understanding color temperature". Westinghouse. Retrieved 18 August 2024.
- ^ Brown, Blain (2002). Cinematography: Theory and Practice : Imagemaking for Cinematographers. Focal Press. p. 172. ISBN 0-240-80500-3.
- ^ "Mired Shift Gel Table" (PDF).
- ^ Robertson, Alan R. (November 1968). "Computation of Correlated Color Temperature and Distribution Temperature". JOSA. 58 (11): 1528–1535. Bibcode:1968JOSA...58.1528R. doi:10.1364/JOSA.58.001528.
- ^ "HMCharacteristicTypeColorTemperature". Apple Developer Documentation.