When an
electromagnetic wave encounters an
interface between two
dielectric media with different ε (permittivity) and μ (permeability), the wave undergoes
reflection and
transmission.
The following Fresnel Coefficients mathematically describe the reflection and transmission at oblique incidence, assuming the wave is propagating from region 1 to region 2. As the boundary conditions at the interface must be taken into consideration, parallel polarization E|| (electric field parallel to the plane of incidence) and perpendicular polarization E⊥ (electric field parallel to the plane of incidence) will be considered separately.
For both polarizations, Snell's Law of reflection and refraction is:
Θi = Θr angle of incidence equals angle of reflection, yo
β1 sin Θi = β2 sin Θt
where Θ
i and Θ
r and Θ
t are the angles of incidence, reflection, and transmission, and β
1 and β
2 are the wavenumbers in dielectric 1 and 2, respectively.
The Reflection coefficients R⊥ and T⊥ are:
where η is the characteristic impedance of the dielectric, η = sqrt(μ/ε).
The Reflection coefficients R|| and T|| are: