A Sharp Look at Coronal Rain with Hinode/SOT and SST/CRISP

TL;DR

This paper presents high-resolution observations of coronal rain using Hinode/SOT and SST/CRISP, analyzing its properties, dynamics, and oscillations to understand coronal heating and magnetic field diagnostics.

Contribution

It provides a detailed statistical analysis of coronal rain properties and explores its potential as a diagnostic tool for coronal loop conditions and wave phenomena.

Findings

Coronal rain velocities and accelerations are quantified.

Transverse oscillations of condensations are observed and analyzed.

Coronal rain can serve as a diagnostic for magnetic and thermal conditions in loops.

Abstract

The tropical wisdom that when it is hot and dense we can expect rain might also apply to the Sun. Indeed, observations and numerical simulations have shown that strong heating at footpoints of loops, as is the case for active regions, puts their coronae out of thermal equilibrium, which can lead to a phenomenon known as catastrophic cooling. Following local pressure loss in the corona, hot plasma locally condenses in these loops and dramatically cools down to chromospheric temperatures. These blobs become bright in H-alpha and Ca II H in time scales of minutes, and their dynamics seem to be subject more to internal pressure changes in the loop rather than to gravity. They thus become trackers of the magnetic field, which results in the spectacular coronal rain that is observed falling down coronal loops. In this work we report on high resolution observations of coronal rain with the Solar Optical Telescope (SOT) on Hinode and CRISP at the Swedish Solar Telescope (SST). A statistical study is performed in which properties such as velocities and accelerations of coronal rain are derived. We show how this phenomenon can constitute a diagnostic tool for the internal physical conditions inside loops. Furthermore, we analyze transverse oscillations of strand-like condensations composing coronal rain falling in a loop, and discuss the possible nature of the wave. This points to the important role that coronal rain can play in the fields of coronal heating and coronal seismology.