A 7 Day Multiwavelength Flare Campaign on AU Mic. I. High-time-resolution Light Curves and the Thermal Empirical Neupert Effect
Abstract
We present light curves and flares from a 7 day, multiwavelength observational campaign of AU Mic, a young and active dM1e star with exoplanets and a debris disk. We report on 73 unique flares between the X-ray to optical data. We use high-time-resolution near-UV (NUV) photometry and soft X-ray (SXR) data from the X-ray Multi-Mirror Mission to study the empirical Neupert effect, which correlates the gradual and impulsive phase flaring emissions. We find that 65% (30 of 46) flares do not follow the Neupert effect, which is 3 times more excursions than seen in solar flares, and propose a four-part Neupert effect classification (Neupert, quasi-Neupert, non-Neupert types I and II) to explain the multiwavelength responses. While the SXR emission generally lags behind the NUV as expected from the chromospheric evaporation flare models, the Neupert effect is more prevalent in larger, more impulsive flares. Preliminary flaring rate analysis with X-ray and U-band data suggests that previously estimated energy ratios hold for a collection of flares observed over the same time period, but not necessarily for an individual, multiwavelength flare. These results imply that one model cannot explain all stellar flares and care should be taken when extrapolating between wavelength regimes. Future work will expand wavelength coverage using radio data to constrain the nonthermal empirical and theoretical Neupert effects to better refine models and bridge the gap between stellar and solar flare physics.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- July 2023
- DOI:
- 10.3847/1538-4357/acc94f
- arXiv:
- arXiv:2304.05692
- Bibcode:
- 2023ApJ...951...33T
- Keywords:
-
- Red dwarf flare stars;
- Stellar activity;
- Stellar flares;
- Optical flares;
- Stellar x-ray flares;
- Planet hosting stars;
- 1367;
- 1580;
- 1603;
- 1166;
- 1637;
- 1242;
- Astrophysics - Solar and Stellar Astrophysics
- E-Print:
- 46 pages, 18 figures, 15 tables. Accepted for publication in The Astrophysical Journal