India's Aditya-L1 mission, launched on September 2, 2023, achieved a significant milestone. Its Solar Ultraviolet Imaging Telescope (SUIT) payload captured the first-ever image of a solar flare 'kernel' in the Sun's lower atmosphere (photosphere and chromosphere).
The observation of an X6.3-class solar flare on February 22, 2025, revealed:
This validates existing theories and provides valuable data to enhance our understanding of solar flare physics.
This observation marks a significant advancement in understanding the Sun's explosive activity and its effects on Earth. The data collected will reshape our understanding of solar flare physics.
Aditya-L1 is the first space-based Indian observatory to study the Sun. | Photo Credit: ISRO
India’s first dedicated space based solar mission, Aditya-L1, has made a ground-breaking observation as one of its scientific payloads has captured the first-ever image of a solar flare ‘kernel’ in the lower solar atmosphere.
The Solar Ultraviolet Imaging Telescope (SUIT) payload has captured the image kernel in the lower solar atmosphere, namely the photosphere and the chromosphere.
ISRO said that this observation and associated scientific results mark a major step in understanding the Sun’s explosive activity and its impact on Earth.
According to ISRO: “On February 22, 2025, the SUIT payload onboard Aditya-L1 observed an X6.3-class solar flare, which is one of the most intense categories of solar eruptions. The unique feature of this observation was that SUIT detected brightening in the Near Ultra Violet (NUV) wavelength range (200-400 nm) —a wavelength range never observed before in such greater detail”.
The space agency added that these observations confirm that the energy released from the flare spread through different layers of the Sun’s atmosphere.
This provides new insights into the complex physics responsible for these massive solar explosions, according to the space agency.
One of the most exciting revelations in this observation is that the localised brightening captured in the lower solar atmosphere corresponds directly with an increase in the temperature of plasma in the solar corona at the top of the solar atmosphere.
According to ISRO: “This confirms the linkage between flare energy deposition and associated temperature evolution. This finding also validates long-standing theories while offering new data that will help to reshape our understanding of physics of solar flare”.
The Aditya-L1 mission was launched on September 2, 2023. On January 6, 2024, the spacecraft was successfully placed in a large halo orbit around first Earth-Sun Lagrange Point, known as Lagrange Point L1.
Published - February 28, 2025 04:29 pm IST
If you often open multiple tabs and struggle to keep track of them, Tabs Reminder is the solution you need. Tabs Reminder lets you set reminders for tabs so you can close them and get notified about them later. Never lose track of important tabs again with Tabs Reminder!
Try our Chrome extension today!
Share this article with your
friends and colleagues.
Earn points from views and
referrals who sign up.
Learn more