illuminance (original) (raw)

Author: the photonics expert (RP)

Definition: the incident luminous flux per unit area on a surface

Categories: article belongs to category light detection and characterization light detection and characterization, article belongs to category optical metrology optical metrology

optical metrology
- photometry
  * luminous flux
  * luminous intensity
  * luminance
  * illuminance
  * luminous efficacy and efficiency

Units: lux (lx)

Formula symbol: ($E_\textrm{v}$)

Page views in 12 months: 325

DOI: 10.61835/nzj Cite the article: BibTex BibLaTex plain text HTML Link to this page! LinkedIn

Content quality and neutrality are maintained according to our editorial policy.

irradiance

Figure 1: Illuminance is received luminous flux per unit area.

What is Illuminance?

The illuminance is a quantity defined in the area of photometry, which is used for quantifying the intensity of illumination, e.g. on an office desk. In contrast to a physical quantity like the irradiance (the corresponding quantity in radiometry), it takes into account the wavelength-dependent sensitivity of the human eye, typically for photopic vision. The related radiometric quantity is the irradiance, specified in units of W/m2, from which one can calculate the illuminance using a luminosity function.

The SI units of that quantity are lux (lx). 1 lux corresponds to a luminous flux of 1 lumen per square meter (1 lm/m2). This is what is approximately reached by the light of the full Moon on the surface of Earth.

Simple Examples

As a simple example, if you illuminate a certain area ($A$) homogeneously with a certain total luminous flux ($\Phi_{\rm v}$), the area receives an illuminance ($E_{\rm v} = \Phi_{\rm v} / A$).

If you have a small light source with a certain luminous flux ($\Phi_{\rm v}$), which radiates isotropically (i.e., with equal intensity in all directions), at a distance ($d$) from that light source you get an illuminance ($E_{\rm v} = \Phi_{\rm v} / (4\pi d^2)$).

If you use an LED lamp with a certain luminous flux, you will generally get a higher illuminance in the forward direction than based on the equation above, as the radiation is more or less concentrated in some direction.

Measurement of Illuminance

multipurpose instrument with photometer function

Figure 2: A multipurpose instrument which also serves as a photometer (luxmeter), displaying the illuminance on a desk.

Illuminance values can be measured with photometers. Such a device can contain a photodiode, equipped with a suitable optical filter so as to match the wavelength-dependent responsivity of the human eye.

Figure 2 shows a simple multipurpose measurement device with a built-in photodetector, which is sufficient e.g. for checking the illuminance at a workplace. Dedicated photometers (luxmeters) often have a separate measurement head, which is attached to the display instrument with a cable.

For accurate illuminance measurements, the used photodetector should have the correct angular dependence of its sensitivity. This means that incident photons should contribute to the measurement signal with no dependence on their incidence angle.

Note that due to that accommodation of the eye to different light levels (see below), it is very hard to reliably estimate illuminance levels without using a measurement instrument.

Recommended Illuminance Levels in Rooms

Illuminance values are useful in the context of the illumination of rooms. For office work and reading paper documents, it is recommended to have an illuminance around 500 lx on the desk. For comparison, full sunlight incident on a white paper generates an illuminance of the order of 100,000 lux, which can be uncomfortable. On cloudy days, the illuminance can easily drop to 1000 lx or even below.

Generally, artificial illumination in rooms produces illuminance values which are far below those in direct sunlight, and which are nevertheless sufficient for perfect vision in most cases. Exposure of eyes to high illumination levels, e.g. to bright sunlight, accelerates the aging of the retina (mostly its central part, the macula) and the eye's lens — the latter mainly due to the ultraviolet content of sunlight, while blue light components are also known to lead to macular degeneration over longer periods of time. Therefore, it is recommended to use effective eye protection under intense light conditions.

Note that the human eye can adapt to different illumination levels in a wide range: We have at least some scotopic vision (without color perception) at a very low illumination levels, even below 10−4 lx, while substantially higher illuminance levels than those of sunlight can be tolerated for a while. Partly, that adaptation is achieved by opening or closing the iris, and partly by using different light sensors: three different kinds of cones (for photopic vision with color perception) and one kind of rods (for scotopic vision with substantially higher sensitivity but no color perception).

Illuminance vs. Luminance

Illuminance must be strictly distinguished from the similar term luminance. These two quantities are very different, and they even have different units (lm m−2 vs. lm sr−1 m−2). Illuminance characterizes light impinging on an illuminated object, while the luminance is relevant for the visual brightness of an object and also takes into account the angular distribution.

Frequently Asked Questions

What is illuminance?

Illuminance is a photometric quantity that measures the intensity of illumination on a surface. It is defined as the luminous flux incident per unit area, with the SI unit being lux (lx), which equals one lumen per square meter (lm/m2).

What is the difference between illuminance and irradiance?

Illuminance is a photometric quantity that accounts for the wavelength-dependent sensitivity of the human eye. In contrast, irradiance is the corresponding radiometric quantity, representing the total optical power per unit area (in W/m2) without being weighted for human vision.

What are some typical illuminance levels?

For office work, an illuminance of around 500 lx is recommended. For comparison, full sunlight on a surface can be about 100,000 lx, while the light from a full moon provides approximately 1 lx.

How is illuminance measured?

Illuminance is measured using a photometer (or luxmeter). This device typically contains a photodiode with an optical filter designed to match the wavelength response of the human eye.

What is the difference between illuminance and luminance?

Illuminance quantifies the light falling onto a surface (in lm/m2), while luminance characterizes the visual brightness of a surface, describing the light emitted or reflected from it in a specific direction (in lm sr−1 m−2).

How does the distance from a light source affect illuminance?

For a small, isotropic light source, the illuminance decreases with the square of the distance. This is because the total luminous flux is spread over a larger spherical area ($4\pi d^2$) as the distance ($d$) increases.

Questions and Comments from Users

Here you can submit questions and comments. As far as they get accepted by the author, they will appear above this paragraph together with the author’s answer. The author will decide on acceptance based on certain criteria. Essentially, the issue must be of sufficiently broad interest.

Please do not enter personal data here. (See also our privacy declaration.) If you wish to receive personal feedback or consultancy from the author, please contact him, e.g. via e-mail.

By submitting the information, you give your consent to the potential publication of your inputs on our website according to our rules. (If you later retract your consent, we will delete those inputs.) As your inputs are first reviewed by the author, they may be published with some delay.