Reflectivity: Difference between revisions

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Reflectivity is a term in [[radiometry]]. It is the ratio between the [[Irradiance|exitance]] from the front of a surface and the incident [[irradiance]] on the front.
'''Reflectivity''' is a term in [[radiometry]]. It is the ratio between the [[Irradiance|exitance]] from the front side of a surface and the incident [[irradiance]] on the front side.


<math>
<math>
   r_\lambda = \frac{M_{front,\lambda}}{E_{front,\lambda}}
   r_\lambda = \frac{M_{front,\lambda}}{E_{front,\lambda}}
</math>
</math>
Note that reflectivity is a unitless quantity in the range [0,1], and can also be expressed as a percentage in the range [0%,100%]. A completely transparent surface has a reflectivity of 0%, while a perfect mirror has a reflectivity of 100%. Reflectivity normally varies as a function of wavelength.


Note that reflectivity is a unitless quantity in the range [0,1].  It normally varies as a function of wavelength.  Reflectivity does not capture the angular dependence of the reflected energy; that is characterized by a [[Bidirectional reflectance distribution function|BRDF]].
Reflectivity does not capture the angular dependence of the reflected energy; that is characterized by a [[Bidirectional reflectance distribution function|BRDF]].[[Category:Suggestion Bot Tag]]
 
 
[[Category:Physics Workgroup]]

Latest revision as of 16:00, 10 October 2024

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Reflectivity is a term in radiometry. It is the ratio between the exitance from the front side of a surface and the incident irradiance on the front side.

Note that reflectivity is a unitless quantity in the range [0,1], and can also be expressed as a percentage in the range [0%,100%]. A completely transparent surface has a reflectivity of 0%, while a perfect mirror has a reflectivity of 100%. Reflectivity normally varies as a function of wavelength.

Reflectivity does not capture the angular dependence of the reflected energy; that is characterized by a BRDF.