Spectroscopic He i 1083 nm Prominence Eruption Observations in the Middle Corona with MLSO/UCoMP

Document Type

Paper

Publication Date

Summer 2025

Abstract

Chloe Pistelli, Momchil E. Molnar, Giuliana de Toma & Joseph Plowman 128 Accesses Explore all metrics Abstract Coronal mass ejections (CMEs) are a major driver of space weather as they propagate through the heliosphere. Many CMEs have associated prominence material entangled in their magnetic structure which contains cooler plasma. This cooler CME component contains significant amounts of neutral elements, which emit brightly in permitted atomic lines. It has been hypothesized that permitted transitions of neutral elements in eruptions could be used for inferring the magnetic field in CMEs, which is crucial for space weather forecasting. We present observations made with the Upgraded Coronal Multi-channel Polarimeter (UCoMP) in He i 1083 nm that clearly show the presence of neutral helium in eruptive prominences associated with CMEs as they propagate through the lower and middle corona. We find that solar prominence eruptions can be detected in He i 1083 nm observations up to the edge of the instrument field of view at ≈ 2 solar radii, providing valuable spectral information that complements existing extreme ultraviolet and white-light coronal imaging observations. These results illustrate the capability of UCoMP to probe the dynamic behavior of prominence eruptions, allowing for their line-of-sight velocity estimation, and potentially improving space weather forecasting by enabling earlier and more accurate identification of Earth-directed eruptions.

Notes

This paper was completed during a REU (Research Experience for Undergraduates) hosted at a partner institution. It was published in 2026 in Solar Physics by Springer Nature. 

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