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Title: A GEOMETRICAL HEIGHT SCALE FOR SUNSPOT PENUMBRAE

Journal Article · · Astrophysical Journal
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Inversions of spectropolarimetric observations of penumbral filaments deliver the stratification of different physical quantities in an optical depth scale. However, without establishing a geometrical height scale, their three-dimensional geometrical structure cannot be derived. This is crucial in understanding the correct spatial variation of physical properties in the penumbral atmosphere and to provide insights into the mechanism capable of explaining the observed penumbral brightness. The aim of this work is to determine a global geometrical height scale in the penumbra by minimizing the divergence of the magnetic field vector and the deviations from static equilibrium as imposed by a force balance equation that includes pressure gradients, gravity, and the Lorentz force. Optical depth models are derived from the inversion of spectropolarimetric data of an active region observed with the Solar Optical Telescope on board the Hinode satellite. We use a genetic algorithm to determine the boundary condition for the inference of geometrical heights. The retrieved geometrical height scale permits the evaluation of the Wilson depression at each pixel and the correlation of physical quantities at each height. Our results fit into the uncombed penumbral scenario, i.e., a penumbra composed of flux tubes with channeled mass flow and with a weaker and more horizontal magnetic field as compared with the background field. The ascending material is hotter and denser than their surroundings. We do not find evidence of overturning convection or field-free regions in the inner penumbral area analyzed. The penumbral brightness can be explained by the energy transfer of the ascending mass carried by the Evershed flow, if the physical quantities below z = -75 km are extrapolated from the results of the inversion.

OSTI ID:
21460030
Journal Information:
Astrophysical Journal, Vol. 720, Issue 2; Other Information: DOI: 10.1088/0004-637X/720/2/1417; ISSN 0004-637X
Country of Publication:
United States
Language:
English

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Related Subjects

79 ASTROPHYSICS
COSMOLOGY AND ASTRONOMY
BOUNDARY CONDITIONS
GRAVITATION
LORENTZ FORCE
PRESSURE GRADIENTS
SATELLITES
STELLAR ATMOSPHERES
STRATIFICATION
SUNSPOTS
TELESCOPES
THREE-DIMENSIONAL CALCULATIONS
ATMOSPHERES
SOLAR ACTIVITY
STARSPOTS
STELLAR ACTIVITY