The Indian Space Research Organization (ISRO) has marked a significant milestone in its Aditya L1 solar probe mission as it successfully captured its first high-energy solar flare in X-ray. The achievement took place during the mission’s first observation window, spanning from approximately 12:00 to 22:00 Coordinated Universal Time (UT) on October 29, 2023.
The pioneering data was recorded by the High Energy L1 Orbiting X-ray Spectrometer (HEL1OS) onboard the Aditya-L1 spacecraft. ISRO made this announcement through a post on a social media platform on Tuesday, highlighting the consistency of the recorded data with the X-ray light curves provided by NOAA’s “Geostationary Operational Environmental Satellite” (GOES). The GOES satellite, operated by the United States National Oceanic and Atmospheric Administration (NOAA), serves critical roles in weather forecasting, severe storm tracking, and meteorology research.
The Aditya L1 mission’s HEL1OS instrument, operating within the wide X-ray energy range of 10 to 150 keV, is dedicated to the study of solar flare activities on the Sun. It has been specially designed to capture the impulsive phase of solar flares, characterized by sudden and explosive energy releases. These events have historically posed challenges for characterization and understanding, particularly during their initial impulsive emissions. HEL1OS, equipped with detectors capable of addressing these challenges, offers high spectral and time resolution measurements.
HEL1OS commenced its operations on October 27, actively monitoring the Sun for hard X-ray activities, a critical component of the Aditya L1 mission. HEL1OS was developed by the Space Astronomy Group of the U. R. Rao Satellite Centre, ISRO, Bengaluru.
The importance of studying solar flares and other space weather phenomena cannot be understated. These events have the potential to significantly impact life on Earth, affecting power systems, satellite communication systems, and radio communications. In worst-case scenarios, they can lead to widespread blackouts that disrupt large portions of the Earth for extended periods. Investigating solar flares and solar activity is vital for better preparation and mitigation of such risks.
