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This article duplicates the scope of other articles, specifically Radiative transfer equation and diffusion theory for photon transport in biological tissue#The diffusion equation. Please discuss this issue and help introduce a summary style to the article.

Photon diffusion equation is a second order partial differential equation describing the time behavior of photon fluence rate distribution in a low-absorption high-scattering medium.

Its mathematical form is as follows. $${\displaystyle \nabla (D(r)\cdot \nabla )\Phi ({\vec {r}},t)-v\mu _{a}({\vec {r}})\Phi ({\vec {r}},t)+vS({\vec {r}},t)={\frac {\partial \Phi ({\vec {r}},t)}{\partial t}}}$$ where ${\displaystyle \Phi }$ is photon fluence rate (W/cm), ${\displaystyle \nabla }$ is del operator, ${\displaystyle \mu _{a}}$ is absorption coefficient (cm), ${\displaystyle D}$ is diffusion constant, ${\displaystyle v}$ is the speed of light in the medium (m/s), and ${\displaystyle S}$ is an isotropic source term (W/cm).

Its main difference with diffusion equation in physics is that photon diffusion equation has an absorption term in it.

Application

Medical Imaging

The properties of photon diffusion as explained by the equation is used in diffuse optical tomography.

External links

• Diffuse Optics Lab at University of Pennsylvania, Philadelphia, USA

• Equations