Bibcode
Asensio Ramos, A.; Requerey, I. S.; Vitas, N.
Bibliographical reference
Astronomy and Astrophysics, Volume 604, id.A11, 9 pp.
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7
2017
Journal
Citations
47
Refereed citations
44
Description
Many phenomena taking place in the solar photosphere are controlled by
plasma motions. Although the line-of-sight component of the velocity can
be estimated using the Doppler effect, we do not have direct
spectroscopic access to the components that are perpendicular to the
line of sight. These components are typically estimated using methods
based on local correlation tracking. We have designed DeepVel, an
end-to-end deep neural network that produces an estimation of the
velocity at every single pixel, every time step, and at three different
heights in the atmosphere from just two consecutive continuum images. We
confront DeepVel with local correlation tracking, pointing out that they
give very similar results in the time and spatially averaged cases. We
use the network to study the evolution in height of the horizontal
velocity field in fragmenting granules, supporting the buoyancy-braking
mechanism for the formation of integranular lanes in these granules. We
also show that DeepVel can capture very small vortices, so that we can
potentially expand the scaling cascade of vortices to very small sizes
and durations.
The movie attached to Fig. 3 is available at http://www.aanda.org
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