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Related Experiment Video

Updated: Jul 7, 2026

Measurement of Aerosols Optical Thickness of the Atmosphere using the GLOBE Handheld Sun Photometer
06:27

Measurement of Aerosols Optical Thickness of the Atmosphere using the GLOBE Handheld Sun Photometer

Published on: May 29, 2019

Laboratory experiments in atmospheric optics.

M Vollmer, R Tammer

    Applied Optics
    |February 13, 2008
    PubMed
    Summary
    This summary is machine-generated.

    This study presents laboratory experiments on atmospheric optics, including mirages, rainbows, and halos. Both qualitative and quantitative methods were used to demonstrate and analyze optical phenomena, aiding in understanding light scattering.

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    Last Updated: Jul 7, 2026

    Measurement of Aerosols Optical Thickness of the Atmosphere using the GLOBE Handheld Sun Photometer
    06:27

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    Published on: May 29, 2019

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    Published on: August 12, 2013

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    Area of Science:

    • Atmospheric optics
    • Light scattering
    • Geometrical optics

    Background:

    • Atmospheric optical phenomena like mirages, rainbows, and halos are visually striking but complex.
    • Understanding these phenomena requires knowledge of light propagation in varied media and scattering principles.

    Purpose of the Study:

    • To present a range of laboratory experiments, both old and new, on atmospheric optical phenomena.
    • To provide didactical tools for understanding concepts like curved light rays and rainbow paths.
    • To enable quantitative comparison between experimental results and theoretical models for phenomena like halos.

    Main Methods:

    • Qualitative demonstrations illustrating principles of light refraction and path deviation.
    • Quantitative experiments involving measurement of angular positions and intensities.
    • Analytical computations and Monte Carlo simulations of light scattering from water droplets and ice crystals.

    Main Results:

    • Demonstration of curved light rays in refractive index gradients.
    • Visualization of the minimum-deviation curve for rainbow formation in water droplets.
    • Elucidation of ray contributions to specific halo types using hexagonal ice crystals.

    Conclusions:

    • Laboratory experiments offer valuable insights into atmospheric optical phenomena.
    • Quantitative experiments combined with simulations enhance the understanding of complex light scattering processes.
    • Didactical demonstrations effectively explain fundamental optical principles relevant to atmospheric optics.