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The term Mie scattering is still related to his name.
Mie scattering is the way that light scatters when it hits an object.
Mie scattering occurs when the particles in the atmosphere are the same size as the wavelengths being scattered.
Mie scattering is named for Gustav Mie, a former professor of Physics.
Mie scattering is a broad class of scattering of light by spherical particles of any diameter.
Mie scattering occurs mostly in the lower portions of the atmosphere where larger particles are more abundant, and dominates when cloud conditions are overcast.
Choice of a suitable oil, and careful control of cooling rate, can produce droplet sizes close to the ideal size for Mie scattering of visible light.
Mie scattering does not depend heavily on wavelength, but it has the largest effect when an observer views the light directly (such as toward the Sun), rather than looking in other directions.
Mie scattering is responsible for the light scattered by clouds, and also for the daytime halo of white light around the Sun (forward scattering of white light).
Smoke particles are an aerosol (or mist) of solid particles and liquid droplets that are close to the ideal range of sizes for Mie scattering of visible light.
It can be shown, however, that Mie scattering differs from Rayleigh scattering in several respects; it is roughly independent of wavelength and it is larger in the forward direction than in the reverse direction.
Weight-for-weight, phosphorus is the most effective smoke-screening agent known, for two reasons: firstly, it absorbs most of the screening mass from the surrounding atmosphere and secondly, the smoke particles are an aerosol, a mist of liquid droplets which are close to the ideal range of sizes for Mie scattering of visible light.