# On the Performance of Multi-Instrument Solar Flare Observations During   Solar Cycle 24

**Authors:** Ryan O. Milligan, Jack Ireland

arXiv: 1703.04412 · 2018-02-14

## TL;DR

This study quantifies how often multiple space-based solar observatories jointly observe solar flares during Solar Cycle 24, revealing higher-than-expected coordination among instruments and providing tools for targeted flare event searches.

## Contribution

It introduces a retrospective technique to identify multi-instrument flare observations and demonstrates that such coordinated observations are more frequent than random chance would suggest.

## Key findings

- 40 flares observed by six or more instruments
- Higher-than-expected co-observation rates among instruments
- Development of an interactive search tool for flare events

## Abstract

The current fleet of space-based solar observatories offers us a wealth of opportunities to study solar flares over a range of wavelengths. Significant advances in our understanding of flare physics often come from coordinated observations between multiple instruments. Consequently, considerable efforts have been, and continue to be made to coordinate observations among instruments (e.g. through the Max Millennium Program of Solar Flare Research). However, there has been no study to date that quantifies how many flares have been observed by combinations of various instruments. Here we describe a technique that retrospectively searches archival databases for flares jointly observed by RHESSI, SDO/EVE (MEGS-A and -B), Hinode/(EIS, SOT, and XRT), and IRIS. Out of the 6953 flares of GOES magnitude C1 or greater that we consider over the 6.5 years after the launch of SDO, 40 have been observed by six or more instruments simultaneously. Using each instrument's individual rate of success in observing flares, we show that the numbers of flares co-observed by three or more instruments are higher than the number expected under the assumption that the instruments operated independently of one another. In particular, the number of flares observed by larger numbers of instruments is much higher than expected. Our study illustrates that these missions often acted in cooperation, or at least had aligned goals. We also provide details on an interactive widget now available in SSWIDL that allows a user to search for flaring events that have been observed by a chosen set of instruments. This provides access to a broader range of events in order to answer specific science questions. The difficulty in scheduling coordinated observations for solar-flare research is discussed with respect to instruments projected to begin operations during Solar Cycle 25, such as DKIST, Solar Orbiter, and Parker Solar Probe.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1703.04412/full.md

## References

32 references — full list in the complete paper: https://tomesphere.com/paper/1703.04412/full.md

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Source: https://tomesphere.com/paper/1703.04412