ISRO Workhorse, PSLV to Launch ESA’S Solar Space Telescope Proba-3 in mid 2024
By R. Anil Kumar
- The Occulter spacecraft towards the left and the Coronagraph spacecraft to the right. Image Source: ESA
- Proba-3 is devoted to the demonstration of technologies and techniques for highly-precise satellite formation flying. It consists of two small satellites launched together that will separate apart to fly in tandem, to prepare for future multi-satellite missions flying as one virtual structure
- The PROBA-3 mission consists of two elements, a Coronagraph spacecraft and an Occulter spacecraft. The two spacecraft will have to be in very precise locations in relation to each other to form a single instrument that allows scientists to investigate the outer atmosphere of the Sun, or the solar corona
- The PROBA-3 mission will form a giant virtual space telescope to study the Sun. The precise formation flying will be a useful capability for future missions
Bangalore, December 11. ISRO’s workhorse rocket, the Polar Satellite Launch Vehicle (PSLV) has been picked to deploy the European Space Agency’s (ESA) experimental Project for On-Board Autonomy-3 (PROBA-3) mission in mid 2024.
The PROBA-3 mission consists of two elements flying in tandem to study the Sun. The mission essentially forms a solar observatory measuring 144 metres in length, split into two elements flying in formation.
ISRO is looking to launch sixteen missions in 2024, which will be the most number of launches it attempts in a single year so far. One of these missions has been contracted to the ESA, with the PSLV tasked with ferrying an innovative technology demonstration mission to Earth orbit.
The PROBA-3 mission consists of two elements, a Coronagraph spacecraft and an Occulter spacecraft. The two spacecraft will have to be in very precise locations in relation to each other to form a single instrument that allows scientists to investigate the outer atmosphere of the Sun, or the solar corona.
Helio-Physics observatories, or spacecraft that make it their business to stare into the Sun, can use a variety of scientific instruments to investigate the different layers of the solar atmosphere.
ISRO’s Aditya L1 mission has a sophisticated kit of seven instruments that allows it to do exactly that. To study the corona, the face or disc of the Sun has to be blocked out, as it would oversaturate the images.
Solar observatories, in space or on the ground, use a coronagraph to block out the Sun, to study the outer atmosphere around it, with a coronagraph.
The Indian Institute of Astrophysics (IIA) in Bangalore has developed the Visible Line Emission Coronagraph (VELC) for the Aditya-L1 mission.
NASA’s Solar Dynamics Observatory (SDO) and ESA’s Solar Orbiter are both equipped with coronagraphs. Typically, the coronagraph is integrated within the spacecraft, but the PROBA-3 mission uses the innovative approach of using two spacecraft flying in tandem, with the Occulter spacecraft observing the corona, and the Coronagraph spacecraft blocking out the face of the Sun.
The primary goal of the mission is to demonstrate the formation flying. The two spacecraft will be separated by a distance in excess of 144 metres, and will fly in formation for six hours at a time. Together, the two elements will be forming a giant virtual satellite.
The mission duration is expected to be around two years. The PROBA-3 launch is currently scheduled between July and September 2024.