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Main Authors: Berasategi, I. Juanikorena, Ballester, E. Alsina, Alemán, T. del Pino, Bueno, J. Trujillo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.19719
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author Berasategi, I. Juanikorena
Ballester, E. Alsina
Alemán, T. del Pino
Bueno, J. Trujillo
author_facet Berasategi, I. Juanikorena
Ballester, E. Alsina
Alemán, T. del Pino
Bueno, J. Trujillo
contents Aims: The polarization of the Ca II resonant doublet (H and K lines) and the subordinate infrared triplet lines are key observables for diagnosing solar chromospheric magnetism. It is thus necessary to understand the physical mechanisms that shape their Stokes profiles in magnetic environments. Methods: Using the spectral synthesis module of the HanleRT-TIC code, we study the effects of anisotropic radiation pumping with partial frequency redistribution (PRD) and J-state interference (JSI) in a plane-parallel semi-empirical static solar atmospheric model. We also analyze the sensitivity of these lines to magnetic fields of varying strengths and orientations, accounting for the combined action of the Hanle and Zeeman effects. Results: Including PRD is crucial to model the polarization in the core regions of the resonant lines, while JSI strongly affects their far wings. The metastable lower levels of the subordinate lines also influence the scattering polarization of the K line. With horizontal magnetic fields, the resonant lines respond to field strengths from sub-gauss to tens of gauss, whereas the infrared triplet scattering polarization is mainly sensitive to milligauss fields. At a near-limb line of sight (LOS) with $μ= 0.1$, the Hanle effect modifies the scattering polarization via a depolarization and a rotation in the plane of linear polarization. At disk center, horizontal fields generate linear polarization in the 1D model: for the K line, the Hanle effect dominates from sub-gauss to a few tens of gauss, and the Zeeman effect dominates in stronger fields. For vertical fields, the Hanle effect vanishes, but magneto-optical effects affect the linear polarization wings. Finally, atomic level polarization impacts the outer circular polarization lobes of the resonant lines, and the weak-field approximation overestimates the LOS magnetic component in this frequency range.
format Preprint
id arxiv_https___arxiv_org_abs_2510_19719
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The magnetic sensitivity of the Ca II resonance and subordinate lines in the solar atmosphere
Berasategi, I. Juanikorena
Ballester, E. Alsina
Alemán, T. del Pino
Bueno, J. Trujillo
Solar and Stellar Astrophysics
Aims: The polarization of the Ca II resonant doublet (H and K lines) and the subordinate infrared triplet lines are key observables for diagnosing solar chromospheric magnetism. It is thus necessary to understand the physical mechanisms that shape their Stokes profiles in magnetic environments. Methods: Using the spectral synthesis module of the HanleRT-TIC code, we study the effects of anisotropic radiation pumping with partial frequency redistribution (PRD) and J-state interference (JSI) in a plane-parallel semi-empirical static solar atmospheric model. We also analyze the sensitivity of these lines to magnetic fields of varying strengths and orientations, accounting for the combined action of the Hanle and Zeeman effects. Results: Including PRD is crucial to model the polarization in the core regions of the resonant lines, while JSI strongly affects their far wings. The metastable lower levels of the subordinate lines also influence the scattering polarization of the K line. With horizontal magnetic fields, the resonant lines respond to field strengths from sub-gauss to tens of gauss, whereas the infrared triplet scattering polarization is mainly sensitive to milligauss fields. At a near-limb line of sight (LOS) with $μ= 0.1$, the Hanle effect modifies the scattering polarization via a depolarization and a rotation in the plane of linear polarization. At disk center, horizontal fields generate linear polarization in the 1D model: for the K line, the Hanle effect dominates from sub-gauss to a few tens of gauss, and the Zeeman effect dominates in stronger fields. For vertical fields, the Hanle effect vanishes, but magneto-optical effects affect the linear polarization wings. Finally, atomic level polarization impacts the outer circular polarization lobes of the resonant lines, and the weak-field approximation overestimates the LOS magnetic component in this frequency range.
title The magnetic sensitivity of the Ca II resonance and subordinate lines in the solar atmosphere
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2510.19719