Radiation in low Earth orbit (LEO) poses a critical risk to satellite electronics and optics, and clarifying the causes of sudden variations in Earth’s inner radiation belt is therefore essential. Using the dark count rates on the micro-channel plate (MCP) detector of the Hisaki space telescope collected over the period 2013–2018, we identified several enhancement events with amplitudes of a factor of 2–5. A two-stage regression analysis with model training on 2013–2016 and detailed event analysis in 2017–2018, combining satellite orbital parameters with Geostationary Operational Environmental Satellite (GOES) measurements (X-rays, magnetic fields, protons, and electrons) and the Symmetric-H component (SYM-H) index, detected events in August 2018 and September 2017, as well as precursor variations occurring about 2 days earlier. While such events are expected to be attributed to coronal mass ejections, SHapley Additive exPlanations (SHAP) analysis revealed an unexpected contribution from non-delayed X-ray variations, suggesting that solar flares may directly affect detectors within minutes. This finding indicates that non-delayed X-ray variations can act as a distinct, event-specific driver of transient dark count enhancements, highlighting the event-to-event variability of radiation-induced detector responses in LEO.
Koga et al. (Wed,) studied this question.