Science
PSLV-C57 launches with Aditya-L1 on board
India's solar observatory Aditya-L1 was injected precisely in an elliptical orbit of 235 km x 19,500 km, as planned, about 63 minutes into the 11.50 am launch Saturday (2 September).
In more good news soon after, the solar panels on Aditya-L1 were deployed and the spacecraft started generating power.
Notably, the Indian Space Research Organisation (ISRO) adopted a "unique mission mode" with its polar satellite launch vehicle (PSLV) to inject the Aditya-L1 satellite in orbit.
"...Very unique mission mode here, with the upper stage of the PSLV taking two-burn sequence for injecting the primary satellite for the first time," ISRO Chairman S Somanath said at the Satish Dhawan Space Centre, Sriharikota (SDSC SHAR), soon after the successful satellite separation.
The ISRO chief congratulated the team for "such a very different mission approach today to do this mission of Aditya-L1."
"Indeed it was very challenging," said Biju S R, the Mission Director.
"To meet the orbital requirements, we have gone for a new mission design strategy. We have gone through numerous simulations to validate this, and that is the proof that you're having now," he said.
"With this, our capability of PSLV has increased manifold to venture into new and challenging missions," Biju added.
The Aditya-L1 mission was the 59th flight of the PSLV and the 25th mission using the PSLV-XL configuration.
With the PSLV's work done, it's a roughly 125-day journey to Aditya-L1's destination of Lagrange point 1 (L1) of the Sun-Earth system here on out.
L1 is a gravitational sweet spot between the Earth and the Sun located 15 lakh kilometres away (L1 explained here).
The first Earth-bound firing to raise the orbit is set to take place at around 11:45 am, India time, on Sunday (3 September).
Aditya-L1 is slated to stay in Earth-bound orbits for 16 days, until about 18 September.
During this phase, the spacecraft will take on increasingly elliptical orbits with the help of five manoeuvres.
This series of steps — or "burns" — starting Sunday will help Aditya-L1 to achieve the velocity necessary for a kick off to L1, located about 15 lakh kilometres from Earth.
Thereafter, the journey from the final Earth orbit to the vicinity of L1 is estimated to take 110 days.
In this stage of the flight, Aditya-L1 will exit the Earth's gravitational sphere of influence and enter a cruise phase.
Thereafter, ISRO will execute a manoeuvre to bind Aditya-L1 to an orbit around L1.
The liquid apogee motor (LAM) will be key to executing the various orbital manoeuvres.
"Once the Aditya is commissioned, it will be an asset to the heliophysics of the country and even to the global scientific fraternity," Shaji said.