6–10 Sept 2021
Online
Europe/Rome timezone

Magnetoseismology for the solar corona: from ~10 Gauss to coronal magnetograms

9 Sept 2021, 11:00
13m
Online

Online

Poster Session 3 - Fundamental Plasma Processes in the Solar Atmosphere: Magnetic Reconnection, Waves, Emission, Particle Acceleration Poster Session 10.4

Speaker

Zihao Yang (Peking University)

Description

Magnetoseismology, a technique of magnetic field diagnostics based on observations of magnetohydrodynamic (MHD) waves, has been widely used to estimate the field strengths of oscillating structures in the solar corona. However, previously magnetoseismology was mostly applied to occasionally occurring oscillation events, providing an estimate of only the average field strength of an oscillating structure, which is usually about 10 Gauss. This restriction could be eliminated if we apply magnetoseismology to the pervasive propagating transverse MHD waves discovered with the Coronal Multi-channel Polarimeter (CoMP). Using several CoMP observations of the Fe XIII 1074.7 nm and 1079.8 nm spectral lines, we obtained maps of the plasma density and wave phase speed in the corona, which allow us to map both the strength and direction of the coronal magnetic field in the plane of sky. We also examined distributions of the electron density and magnetic field strength, and compared their variations with height in the quiet Sun and active regions. Such measurements could provide critical information to advance our understanding of the Sun's magnetism and the magnetic coupling of the whole solar atmosphere.

Primary authors

Zihao Yang (Peking University) Hui Tian (Peking University) Dr Steven Tomczyk

Co-authors

Dr Christian Bethge Richard Morton (Northumbria University) Giulio Del Zanna (University of Cambridge (UK)) Dr Scott McIntosh Dr Bidya Binay Karak Dr Sarah Gibson Dr Tanmoy Samanta Prof. Jiansen He Mr Yajie Chen Prof. Linghua Wang Dr Xianyong Bai

Presentation materials