ALPHA

Angstrom exponent

Attributes

float | continuous | dynamic | unit-less | medium

Description

The variable ALPHA defines the spectral dependence of the aerosol extinction coefficient through the Ångström approximation (Ångström, 1908):

$$ε_k(λ)=ε_k(λ_0){(λ_0/λ)^α}$$

where εk is the extinction coefficient, λ0 if a reference wavelength (typically 550 nm) and α is the Ångström exponent.

Thus, this variable has an impact on the absorption and scattering effects caused by aerosols.

For typical aerosols, $α$ values range from 1 to 2 (Holben et al., 1998, Hess et al., 1998, Dubovik et al., 2002). If ALPHA=0 (default value) , libRadtran will use the spectral dependency of the aerosol extinction coefficient from the aerosol model selected in IHAZE.

Note that in libRadtran, the Ångström exponent is introduced by the input parameter aerosol_angstrom together with the parameter BETA so that:

$$τ(λ)=βλ^α$$

In ALG, the parameter BETA is automatically calculated based on the AOT value at $λ_0$= 550 nm.

References