![]() ![]() In addition, reflectance, transmittance and absorptance might also depend on polarization and geometric distribution of the incident radiation, which therefore also have to be specified. For the latter, the spectral distribution of the incident radiation has to be specified. Thus, these three processes can either be quantified for monochromatic radiation (in this case, the adjective “spectral” is added to the respective quantity) or for a certain kind of polychromatic radiation. In general, reflection, transmission and absorption depend on the wavelength of the affected radiation. Reflectance ρ, Transmittance τ and Absorptance α The measurement of classical transmission and reflection with a handheld device requires measuring systems with intelligent correction methods.įig. 1: top: Direct, mixed and diffuse reflection bottom: direct, mixed and diffuse transmissionįig. 2: When directly reflected or directly transmitted, a unidirectional beam follows the laws of geometrical optics:ĭirect reflection (left): αi n = α out, direct transmission (right): n 1 × sin( α in) = n 2 × sin( α out) with n 1 and n 2 denoting the respective medium’s index of refraction.For the measurement of scattering samples we would like to refer to a spectrophotometer specially designed for this purpose.For the optical measurement of reflection, transmission, absorption, and photoluminescence integrating sphere measuring systems are suitable.Exception: The Doppler Effect causes a change in frequency when the reflecting material or surface is in motion.Ībsorption is the transformation of radiant power to another type of energy, usually heat, by interaction with matter. Reflection, transmission and scattering leave the frequency of the radiation unchanged. In this case, we speak about regular reflection (or s pecular reflection) and regular transmission (or direct transmission). When no diffusion occurs, reflection or transmission of a unidirectional beam results in a unidirectional beam according to the laws of geometrical optics (Fig. 2). In this case, we speak about diffuse reflection and diffuse transmission (Fig. 1). Both processes can be accompanied by diffusion (also called scattering), which is the process of deflecting a unidirectional beam into many directions. Reflection is the process by which electromagnetic radiation is returned either at the boundary between two media (surface reflection) or at the interior of a medium (volume reflection), whereas transmission is the passage of electromagnetic radiation through a medium. ![]()
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