Capped column 150×250 µm (bar 50×50 µm)

Video thumbnail (Frame 0) Video thumbnail (Frame 25) Video thumbnail (Frame 75) Video thumbnail (Frame 156) Video thumbnail (Frame 322) Video thumbnail (Frame 709) Video thumbnail (Frame 844) Video thumbnail (Frame 891) Video thumbnail (Frame 937)
Video in TIB AV-Portal: Capped column 150×250 µm (bar 50×50 µm)

Formal Metadata

Capped column 150×250 µm (bar 50×50 µm)
Title of Series
CC Attribution 3.0 Germany:
You are free to use, adapt and copy, distribute and transmit the work or content in adapted or unchanged form for any legal purpose as long as the work is attributed to the author in the manner specified by the author or licensor.
Release Date
Silent film

Content Metadata

Subject Area
Study of the diffraction pattern of cloud particles and respective response of OAPs Optical array probes (OAPs) are classical instrumental means to derive shape, size, and number concentration of cloud and precipitation particles from 2D images. However, recorded 2D images are subject to distortion based on the diffraction of light when particles are imaged out of the object plane of the optical device. This phenomenon highly affects retrievals of microphysical properties of cloud particles. Previous studies of this effect mainly focused on spherical droplets. In this study we propose a theoretical method to compute diffraction pattern of all kinds of cloud particle shapes in order to simulate the response recorded by an OAP. To check the validity of this method, a series of experimental measurements have been performed with a 2D-S probe mounted on a test bench. Measurements are performed using spinning glass discs with imprinted non-circular opaque particle shapes.
Keywords OAP diffraction cloud particles microphysics

Related Material