# The Need for a New Generation of Space-based Visible and Near-IR   Emission Line Observations of the Corona

**Authors:** Benjamin Boe, Shadia Habbal, and Adalbert Ding

arXiv: 2302.11779 · 2023-02-24

## TL;DR

This paper emphasizes the importance of developing new space-based instruments to observe visible and near-infrared emission lines in the solar corona, which are crucial for understanding coronal physics and solar wind formation.

## Contribution

It highlights the limitations of current and planned instruments and advocates for deploying additional space-based assets to observe V+NIR lines beyond 1.5 Rs.

## Key findings

- V+NIR lines can diagnose plasma parameters up to 3.4 Rs.
- Current instruments are limited in spectral coverage and helioprojective distance.
- Enhanced observations are needed to study the middle corona and solar wind formation.

## Abstract

Visible and near-infrared (V+NIR) emission lines were the first to be discovered in the corona, during total solar eclipses, and they continue to offer unique opportunities to study the physical properties of the corona. The most commonly observed coronal emission lines today are in the extreme ultraviolet, which are dominated by collisionally excited emission. V+NIR lines on the other hand, are radiatively excited out to high helioprojective distances. Indeed, recent eclipse observations have demonstrated the diagnostic potential of V+NIR lines, which are still observable out to at least 3.4 Rs. V+NIR lines can be used to infer key plasma parameters such as: the electron and ion temperatures, magnetic field strength and morphologies, the ionic freeze-in distances, Doppler motions of coronal plasmas, and the dynamics of coronal mass ejections through time variations of these parameters. Current and planned space-based coronagraphs, such as Solar Orbiter and Proba 3, will have some filters for V+NIR lines, but will only have an exceptionally small selection. They will thus be limited in their ability to infer electron or ion temperatures, as well as other crucial physical properties of the corona. The ground-based DKIST and UCoMP will soon offer V+NIR line observations, but they will be limited to a maximum helioprojective distance of about 1.5 Rs. To better explore the middle corona, and to understand the formation of the solar wind and space weather events, it is essential that we deploy additional space-based assets to measure a wide selection of V+NIR emission lines at helioprojective distances beyond 1.5 Rs. Occulting of the solar disk could be achieved by a conventional coronagraph, by novel methods such as an external occulter, by lunar occultations in situ in orbit around the Moon, or by lunar based observations of lunar eclipses (i.e., total solar eclipse on the Moon).

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Source: https://tomesphere.com/paper/2302.11779