Tomographic imaging of foam | Zendy

M. R. Fetterman | Zendy; E. Tan | Zendy; Leslie Ying | Zendy; Ronald A. Stack | Zendy; Daniel L. Marks | Zendy; Steven D. Feller | Zendy; Evan Cull | Zendy; Jason M. Sullivan | Zendy; David Munson | Zendy; S. T. Thoroddsen | Zendy; David J. Brady | Zendy

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Tomographic imaging of foam

Author(s) -

M. R. Fetterman,

E. Tan,

Leslie Ying,

Ronald A. Stack,

Daniel L. Marks,

Steven D. Feller,

Evan Cull,

Jason M. Sullivan,

David Munson,

S. T. Thoroddsen,

David J. Brady

Publication year - 2000

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.7.000186

Subject(s) - optics , distortion (music) , tracing , ray tracing (physics) , tomographic reconstruction , container (type theory) , image processing , tomography , materials science , image (mathematics) , computer science , computer vision , physics , amplifier , optoelectronics , cmos , composite material , operating system

The morphology of three-dimensional foams is of interest to physicists, engineers, and mathematicians. It is desired to image the 3-dimensional structure of the foam. Many different techniques have been used to image the foam, including magnetic resonance imaging, and short-focal length lenses. We use a camera and apply tomographic algorithms to accurately image a set of bubbles. We correct for the distortion of a curved plexiglas container using ray-tracing.

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