Please use this identifier to cite or link to this item: http://hdl.handle.net/2248/6581
Title: Two-dimensional segmentation of small convective patterns in radiation hydrodynamics simulations
Authors: Lemmerer, B
Utz, D
Hanslmeier, A
Veronig, A
Thonhofer, S
Grimm-Strele, H
Kariyappa, R
Keywords: Sun: granulation
Convection
Techniques: image processing
Issue Date: Mar-2014
Publisher: EDP Sciences
Citation: Astronomy & Astrophysics, Vol. 563, A107
Abstract: Context. Recent results from high-resolution solar granulation observations indicate the existence of a population of small granular cells that are smaller than 600 km in diameter. These small convective cells strongly contribute to the total area of granules and are located in the intergranular lanes, where they form clusters and chains. Aims. We study high-resolution radiation hydrodynamics simulations of the upper convection zone and photosphere to detect small granular cells, define their spatial alignment, and analyze their physical properties. Methods. We developed an automated image-segmentation algorithm specifically adapted to high-resolution simulations to identify granules. The resulting segmentation masks were applied to physical quantities, such as intensity and vertical velocity profiles, provided by the simulation. A new clustering algorithm was developed to study the alignment of small granular cells. Results. Small granules make a distinct contribution to the total area of granules and form clusters of chain-like alignments. The simulation profiles demonstrate a different nature for small granular cells because they exhibit on average lower intensities, lower horizontal velocities, and are located deeper inside of convective layers than regular granules. Their intensity distribution deviates from a normal distribution as known for larger granules, and follows a Weibull distribution.
Description: Open Access
URI: http://hdl.handle.net/2248/6581
ISSN: 0004-6361
Appears in Collections:IIAP Publications

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