AU Mic is an M1Ve star in the \(\beta\) Pic moving group with a characterized age of 23 \(\pm\) 3 Myr. At 9.79 \(\pm\) 0.04 pc, it is one of the closest pre-main sequence stars to Earth. TESS has led to the discovery of two exoplanets transiting AU Mic. AU Mic b orbits closer to its host, with a period of 8.46 days. It has a radius measurement of 4.20 Earth radii, placing it on the edge of the hot Neptune desert. We expect planets at this size (indicating a large gaseous envelope) and orbital period (highly irradiated) to be experiencing significant photoevaporation. This and its youth prompt the detailed study of AU Mic b's potentially escaping atmosphere. We obtained two Lyman-\(\alpha\) transits of AU Mic b with HST/STIS. We present a detailed analysis of the flares within these observations. The flare-removed Lyman-\(\alpha\) light curve for Transit 1 does not exhibit any evidence of escaping neutral hydrogen. This supports theoretical work done by Owen et al. (2021) showing that some hot Neptunes and sub-Saturns will have their escaping envelopes photoionized too quickly to be observable in Lyman-\(\alpha\). The Transit 2 is not as straightfoward, showing a significant deficit in flux before the white-light mid-transit of the planet.

{"references": ["Rockcliffe, K. E., Newton, E. R., Youngblood, A., et al. 2021, AJ, 162, 116", "Owen, J. E., Murray-Clay, R. A., Schreyer, E., et al. 2021, arXiv:2111.06094"]}