Litcius/Paper detail

ALMA and IRIS Observations of the Solar Chromosphere. II. Structure and Dynamics of Chromospheric Plages

Georgios Chintzoglou, Bart De Pontieu, Juan Martínez‐Sykora, V. H. Hansteen, J. de la Cruz Rodríguez, Mikołaj Szydlarski, S. Jafarzadeh, Sven Wedemeyer, T. S. Bastian, A. Sainz Dalda

2021The Astrophysical Journal19 citationsDOIOpen Access PDF

Abstract

Abstract We propose and employ a novel empirical method for determining chromospheric plage regions, which seems to better isolate a plage from its surrounding regions than other methods commonly used. We caution that isolating a plage from its immediate surroundings must be done with care in order to successfully mitigate statistical biases that, for instance, can impact quantitative comparisons between different chromospheric observables. Using this methodology, our analysis suggests that λ = 1.25 mm free–free emission in plage regions observed with the Atacama Large Millimeter/submillimeter Array (ALMA)/Band6 may not form in the low chromosphere as previously thought, but rather in the upper chromospheric parts of dynamic plage features (such as spicules and other bright structures), i.e., near geometric heights of transition-region temperatures. We investigate the high degree of similarity between chromospheric plage features observed in ALMA/Band6 (at 1.25 mm wavelengths) and the Interface Region Imaging Spectrograph (IRIS)/Si iv at 1393 Å. We also show that IRIS/Mg ii h and k are not as well correlated with ALMA/Band6 as was previously thought, and we discuss discrepancies with previous works. Lastly, we report indications of chromospheric heating due to propagating shocks supported by the ALMA/Band6 observations.

Topics & Concepts

PlageChromospherePhysicsAstrophysicsWavelengthSponge spiculeAstronomySpectral lineBiologyOpticsAnatomyFisheryShoreSolar and Space Plasma DynamicsStellar, planetary, and galactic studiesAstro and Planetary Science