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Illuminance

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(Redirected from Luminous emittance) Luminous flux incident on a surface per area Not to be confused with Luminance.
Illuminance
Common symbolsEv
SI unitlux
Other unitsphot, foot-candle
In SI base unitscd·sr·m
Dimension L 2 J {\displaystyle {\mathsf {L}}^{-2}{\mathsf {J}}}
Illuminance diagram with units and terminology.
Illuminance diagram with units and terminology

In photometry, illuminance is the total luminous flux incident on a surface, per unit area. It is a measure of how much the incident light illuminates the surface, wavelength-weighted by the luminosity function to correlate with human brightness perception. Similarly, luminous emittance is the luminous flux per unit area emitted from a surface. Luminous emittance is also known as luminous exitance.

In SI units illuminance is measured in lux (lx), or equivalently in lumens per square metre (lm·m). Luminous exitance is measured in lm·m only, not lux. In the CGS system, the unit of illuminance is the phot, which is equal to 10000 lux. The foot-candle is a non-metric unit of illuminance that is used in photography.

Illuminance was formerly often called brightness, but this leads to confusion with other uses of the word, such as to mean luminance. "Brightness" should never be used for quantitative description, but only for nonquantitative references to physiological sensations and perceptions of light.

The human eye is capable of seeing somewhat more than a 2 trillion-fold range. The presence of white objects is somewhat discernible under starlight, at 5×10 lux (50 μlx), while at the bright end, it is possible to read large text at 10 lux (100 Mlx), or about 1000 times that of direct sunlight, although this can be very uncomfortable and cause long-lasting afterimages.

Common illuminance levels

A lux meter for measuring illuminances in work environments
Lighting condition Foot-candles Lux
Sunlight 10,000 100,000
Shade on a sunny day 01,000 010,000
Overcast day 00100 001,000
Very dark day 00010 000100
Twilight 00001 000010
Deep twilight 00000.1 000001
Full moon 00000.01 000000.1
Quarter moon 00000.001 000000.01
Starlight 00000.0001 000000.001
Overcast night 00000.00001 000000.0001

Astronomy

In astronomy, the illuminance stars cast on the Earth's atmosphere is used as a measure of their brightness. The usual units are apparent magnitudes in the visible band. V-magnitudes can be converted to lux using the formula E v = 10 ( 14.18 m v ) / 2.5 , {\displaystyle E_{\mathrm {v} }=10^{(-14.18-m_{\mathrm {v} })/2.5},} where Ev is the illuminance in lux, and mv is the apparent magnitude. The reverse conversion is m v = 14.18 2.5 log ( E v ) . {\displaystyle m_{\mathrm {v} }=-14.18-2.5\log(E_{\mathrm {v} }).}

Relation to luminance

Comparison of photometric and radiometric quantities

The luminance of a reflecting surface is related to the illuminance it receives: Ω Σ L v d Ω Σ cos θ Σ = M v = E v R {\displaystyle \int _{\Omega _{\Sigma }}L_{\mathrm {v} }\mathrm {d} \Omega _{\Sigma }\cos \theta _{\Sigma }=M_{\mathrm {v} }=E_{\mathrm {v} }R} where the integral covers all the directions of emission ΩΣ, and

In the case of a perfectly diffuse reflector (also called a Lambertian reflector), the luminance is isotropic, per Lambert's cosine law. Then the relationship is simply L v = E v R π {\displaystyle L_{\mathrm {v} }={\frac {E_{\mathrm {v} }R}{\pi }}}

See also

References

  1. "Illuminance, 17-21-060". CIE S 017:2020 ILV: International Lighting Vocabulary, 2nd edition. CIE - International Commission on Illumination. 2020. Retrieved 20 April 2023.
  2. ^ International Electrotechnical Commission (IEC): International Electrotechnical Vocabulary. ref. 845-21-060, illuminance
  3. Luminous exitance Drdrbill.com
  4. ^ International Electrotechnical Commission (IEC): International Electrotechnical Vocabulary. ref. 845-21-081, luminous exitance
  5. One phot = 929.030400001 foot-candles, according to http://www.unitconversion.org/unit_converter/illumination.html
  6. "Illuminance - Recommended Light Level". The Engineering ToolBox. Archived from the original on April 3, 2022. Retrieved July 7, 2022.
  7. Schlyter, Paul. "Radiometry and photometry in astronomy FAQ, section 7".
  8. "Formulae for converting to and from astronomy-relevant units" (PDF). Archived from the original (PDF) on December 2, 2013. Retrieved Nov 23, 2013.

External links

SI photometry quantities
Quantity Unit Dimension
Notes
Name Symbol Name Symbol
Luminous energy Qv lumen second lm⋅s TJ The lumen second is sometimes called the talbot.
Luminous flux, luminous power Φv lumen (= candela steradian) lm (= cd⋅sr) J Luminous energy per unit time
Luminous intensity Iv candela (= lumen per steradian) cd (= lm/sr) J Luminous flux per unit solid angle
Luminance Lv candela per square metre cd/m (= lm/(sr⋅m)) LJ Luminous flux per unit solid angle per unit projected source area. The candela per square metre is sometimes called the nit.
Illuminance Ev lux (= lumen per square metre) lx (= lm/m) LJ Luminous flux incident on a surface
Luminous exitance, luminous emittance Mv lumen per square metre lm/m LJ Luminous flux emitted from a surface
Luminous exposure Hv lux second lx⋅s LTJ Time-integrated illuminance
Luminous energy density ωv lumen second per cubic metre lm⋅s/m LTJ
Luminous efficacy (of radiation) K lumen per watt lm/W MLTJ Ratio of luminous flux to radiant flux
Luminous efficacy (of a source) η lumen per watt lm/W MLTJ Ratio of luminous flux to power consumption
Luminous efficiency, luminous coefficient V 1 Luminous efficacy normalized by the maximum possible efficacy
See also:
  1. The symbols in this column denote dimensions; "L", "T" and "J" are for length, time and luminous intensity respectively, not the symbols for the units litre, tesla and joule.
  2. Standards organizations recommend that photometric quantities be denoted with a subscript "v" (for "visual") to avoid confusion with radiometric or photon quantities. For example: USA Standard Letter Symbols for Illuminating Engineering USAS Z7.1-1967, Y10.18-1967
  3. ^ Alternative symbols sometimes seen: W for luminous energy, P or F for luminous flux, and ρ for luminous efficacy of a source.
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