## Wikipedia - Radianza (it) Wikipedia - إشعاعية (ar) radiance, $$L$$

https://doi.org/10.1351/goldbook.R05037
@[email protected], $$P$$, leaving or passing through a small transparent element of surface in a given direction from the source about the solid @[email protected] $$\varOmega$$, divided by the solid @[email protected] and by the orthogonally projected area of the element in a plane normal to the given beam direction, $$\text{d}S_{\perp } = \text{d}S\, \text{cos}\,\theta$$
Notes:
1. Mathematical definition: $L = \frac{\text{d}^{2}P}{\text{d}\Omega \, \text{d}S_{\perp }} = \frac{\text{d}^{2}P}{\text{d}\Omega \, \text{d}S\, \text{cos}\,\theta}$ for a divergent beam propagating in an elementary cone of the solid @[email protected] $$\varOmega$$ containing the direction $$\theta$$. SI unit is $$\text{W m}^{-2}\ \text{sr}^{-1}$$.
2. For a parallel beam it is the @[email protected], $$P$$, of all wavelengths leaving or passing through a small element of surface in a given direction from the source divided by the orthogonally projected area of the element in a plane normal to the given direction of the beam, $$\theta$$. Mathematical definition in this case: $$\text{d}P/(\text{d}S\, \text{cos}\,\theta)$$. If the @[email protected] is constant over the surface area considered, $$P/(S\, \text{cos}\,\theta)$$. SI unit is $$\text{W m}^{-2}$$.
3. Equivalent to $$L = \int_{\lambda}L_{\lambda}\, \text{d}\lambda$$, where $$L_{\lambda}$$ is the @[email protected] at @[email protected] $$\lambda$$.
Source:
PAC, 2007, 79, 293. (Glossary of terms used in photochemistry, 3rd edition (IUPAC Recommendations 2006)) on page 408 [Terms] [Paper]