"It is a great stroke of luck that Aditya-L1 was able to witness such a strong flare right at the beginning of its research ...

From this location, Aditya-L1 can observe the Sun continuously ... band. It can capture images in 11 different wavelengths. This helps scientists examine different layers of the Sun’s atmosphere.

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 ...

Indian scientists report flareless coronal mass ejection observations from the Sun using VELC instrument on Aditya-L1 mission ...

Images from ISRO’s Aditya-L1—India’s first mission to the Sun—reveal a solar flare ‘kernel’ in the lower layers of the atmosphere, according to an analysis. This provides new insights ...

Both satellites, the Solar Orbiter and Aditya, carry a range of instruments that observe the flare as it moves away from the sun and through the electromagnetic spectrum. Aditya-L1 has a special ...

The Indian Space Research Organisation (ISRO) announced on Tuesday that Aditya-L1 has completed its first halo orbit around the Sun-Earth Lagrangian point 1 (L1). The spacecraft, inserted into ...

People in India would not be able to get a feel of this Total Solar Eclipse, but India's Sun-study mission Aditya-L1 has been witnessing a round-the-clock Total Solar Eclipse, since the craft ...

India's Space Research Organization's (ISRO) solar space-based observatory, Aditya-L1, is scheduled for a launch in the last week of August or in the first week of September. Previously ...

India's solar probe Aditya L1 is set to observe the behaviour and rays of the Sun during the total solar eclipse on Monday, April 8. The total solar eclipse will occur when the Sun, Moon ...

Equipped with seven payloads, Aditya-L1 is slated to conduct remote sensing of the sun and in-situ observations for an estimated five years. Named after the Hindi word for the sun, this mission ...

India's first sun-studying spacecraft, Aditya-L1, has captured one of our star's fiery outbursts in new detail. Solar flares occur in regions where the sun's magnetic fields become tangled ...