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Light and Optics
online meteorology guide


Graphic by: Yiqi Shao

Rainbows, sunsets and halos; a spectacular display of colors and visuals in the sky called "atmospheric optics". As sunlight (or moonlight) enters the atmosphere, it is either absorbed, reflected, scattered, refracted or diffracted by atmospheric particles or air molecules. These processes, individually or in combination, are responsible for producing most optical effects. This module investigates these particle-light interactions and the assortment of optical effects they produce. The Light and Optics module has been organized into the following sections:

Sections
Last Update: 08/26/99
Mechanisms
Particle/Molecule-light interactions responsible for creating optical effects. These interactions include: reflection, scattering, refraction and diffraction.

Air, Dust, Haze
Optical effects resulting from the interaction of light with air, dust and haze particles. These effects include: crepuscular rays, blue skies, blue haze and sunsets.

Ice Crystals
Optical effects resulting from the interaction of light with ice crystals. These effects include: sundogs, sun pillars and halos.

Water Droplets
Optical effects resulting from the interaction of light with water droplets. These effects include: cloud iridescence, rainbows and a silver lining along the edge of clouds.

Acknowledgments
Those who contributed to the development of this module.

The type of optical effect that results greatly depends upon the type of particles the light encounters and on the wavelength of the light. For this reason, the optical effects discussed in this module have been grouped according to the following classifications of atmospheric particles: air, dust and haze, ice crystals, and water droplets.


Terms for using data resources. CD-ROM available.
Credits and Acknowledgments for WW2010.
Department of Atmospheric Sciences (DAS) at
the University of Illinois at Urbana-Champaign.