DOT tomography of the solar atmosphere II. Reserved granulation in Ca II H

R. J. Rutten; A. G. De Wijn; P. Sütterlin

doi:10.1051/0004-6361:20035636

DOT tomography of the solar atmosphere II. Reserved granulation in Ca II H

R. J. Rutten, A. G. De Wijn, P. Sütterlin

Solar Frontiers

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54 Scopus citations

Abstract

High-quality simultaneous image sequences from the Dutch Open Telescope (DOT) in the G band and the Ca II H line are used to quantify the occurrence of reversed granulation as a constituent of the subsonic brightness pattern observed as a background to acoustic oscillations in the quiet-Sun internetwork atmosphere. In the middle photosphere reversed granulation constitutes a much larger part of this background than at the larger heights sampled by ultraviolet radiation. The anticorrelation with the underlying granulation reaches about 50% at a temporal delay of 2-3 min, and increases with spatial image smoothing to mesogranular resolution. We discuss the nature of reversed granulation in terms of convection reversal, gravity waves, acoustic waves, and intergranular magnetism, suggest that the internetwork background pattern is primarily a mixture of the first two ingredients, and speculate that it is also an inverse canopy mapper.

Original language	English
Pages (from-to)	333-340
Number of pages	8
Journal	Astronomy and Astrophysics
Volume	416
Issue number	1
DOIs	https://doi.org/10.1051/0004-6361:20035636
State	Published - Mar 2004

Keywords

Sun: chromosphere
Sun: oscillations
Sun: photosphere

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10.1051/0004-6361:20035636

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title = "DOT tomography of the solar atmosphere II. Reserved granulation in Ca II H",

abstract = "High-quality simultaneous image sequences from the Dutch Open Telescope (DOT) in the G band and the Ca II H line are used to quantify the occurrence of reversed granulation as a constituent of the subsonic brightness pattern observed as a background to acoustic oscillations in the quiet-Sun internetwork atmosphere. In the middle photosphere reversed granulation constitutes a much larger part of this background than at the larger heights sampled by ultraviolet radiation. The anticorrelation with the underlying granulation reaches about 50\% at a temporal delay of 2-3 min, and increases with spatial image smoothing to mesogranular resolution. We discuss the nature of reversed granulation in terms of convection reversal, gravity waves, acoustic waves, and intergranular magnetism, suggest that the internetwork background pattern is primarily a mixture of the first two ingredients, and speculate that it is also an inverse canopy mapper.",

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author = "Rutten, \{R. J.\} and \{De Wijn\}, \{A. G.\} and P. S{\"u}tterlin",

year = "2004",

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doi = "10.1051/0004-6361:20035636",

language = "English",

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TY - JOUR

T1 - DOT tomography of the solar atmosphere II. Reserved granulation in Ca II H

AU - Rutten, R. J.

AU - De Wijn, A. G.

AU - Sütterlin, P.

PY - 2004/3

Y1 - 2004/3

N2 - High-quality simultaneous image sequences from the Dutch Open Telescope (DOT) in the G band and the Ca II H line are used to quantify the occurrence of reversed granulation as a constituent of the subsonic brightness pattern observed as a background to acoustic oscillations in the quiet-Sun internetwork atmosphere. In the middle photosphere reversed granulation constitutes a much larger part of this background than at the larger heights sampled by ultraviolet radiation. The anticorrelation with the underlying granulation reaches about 50% at a temporal delay of 2-3 min, and increases with spatial image smoothing to mesogranular resolution. We discuss the nature of reversed granulation in terms of convection reversal, gravity waves, acoustic waves, and intergranular magnetism, suggest that the internetwork background pattern is primarily a mixture of the first two ingredients, and speculate that it is also an inverse canopy mapper.

AB - High-quality simultaneous image sequences from the Dutch Open Telescope (DOT) in the G band and the Ca II H line are used to quantify the occurrence of reversed granulation as a constituent of the subsonic brightness pattern observed as a background to acoustic oscillations in the quiet-Sun internetwork atmosphere. In the middle photosphere reversed granulation constitutes a much larger part of this background than at the larger heights sampled by ultraviolet radiation. The anticorrelation with the underlying granulation reaches about 50% at a temporal delay of 2-3 min, and increases with spatial image smoothing to mesogranular resolution. We discuss the nature of reversed granulation in terms of convection reversal, gravity waves, acoustic waves, and intergranular magnetism, suggest that the internetwork background pattern is primarily a mixture of the first two ingredients, and speculate that it is also an inverse canopy mapper.

KW - Sun: chromosphere

KW - Sun: oscillations

KW - Sun: photosphere

UR - https://www.scopus.com/pages/publications/1542751699

U2 - 10.1051/0004-6361:20035636

DO - 10.1051/0004-6361:20035636

M3 - Article

AN - SCOPUS:1542751699

SN - 0004-6361

VL - 416

SP - 333

EP - 340

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

IS - 1

ER -

DOT tomography of the solar atmosphere II. Reserved granulation in Ca II H

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Keywords

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