Introduction:
As the world ushered in the New Year with celebrations and fireworks, India had a special gift for the global scientific community. The Indian Space Research Organisation (ISRO) started the year with a bang by successfully launching the X-ray Polarimeter Satellite, XPoSAT, making India the second country, after the United States, to join the league of Imaging X-ray Polarimetry Explorer missions. This achievement adds another feather to ISRO’s cap, following a string of successful missions in the previous year.
ISRO’s Successful Streak:
The momentum from the previous year’s historic launches, including Chandrayaan-3, Aditya-L1, and the Gaganyaan Test Vehicle D1 mission, continued with the flawless execution of the XPoSAT mission. This mission, launched through ISRO’s reliable workhorse Polar Satellite Launch Vehicle (PSLV), showcased the agency’s commitment to advancing space exploration.
Technical Marvels and Payloads:
XPoSAT, the first dedicated satellite from ISRO for space-based polarization measurements of X-ray emissions, carried two cutting-edge payloads—POLIX (Polarimeter Instrument in X-rays) and XSPECT (X-ray Spectroscopy and Timing). These payloads, developed by esteemed institutions like Raman Research Institute and UR Satellite Centre in Bengaluru, aim to explore the fundamental phenomena associated with galaxies and black holes.
Mission Objectives and Scientific Goals:
The primary goal of the XPoSAT mission is to measure the polarization of X-rays in the energy band of 8-30 keV from potential cosmic sources. The mission will delve into the distribution of magnetic fields, geometric anisotropies, and the nature of accelerators in galactic cosmic X-ray sources. This ambitious project aims to provide a detailed understanding of galactic black hole binary sources and decipher the origin of X-rays from neutron stars or pulsar magnetospheres.
ISRO’s PSLV Milestone:
The successful launch of XPoSAT marked the 60th mission of ISRO’s Polar Satellite Launch Vehicle. Since its first successful launch in October 1994, the PSLV has emerged as India’s reliable and versatile workhorse launch vehicle. Notable accomplishments include the launches of Chandrayaan-1 in 2008 and the Mars Orbiter Spacecraft in 2013, reinforcing the PSLV’s status as a globally acclaimed launcher.
Technological Advancements and Innovations:
Mission director M Jayakumar highlighted the technological advancements demonstrated in the POEM 3 experiment, emphasizing the use of fuel cells and green monopropellant thrusters. XPoSAT, engineered by women, not only serves as a space observatory but also pioneers the study of solar irradiance and UV index.
Global Recognition and Future Applications:
With XPoSAT, ISRO has not only contributed to the scientific community’s understanding of celestial phenomena but has also showcased India’s prowess in space technology. Important payloads, including fuel cells, demonstrated during the POEM phase, hold promise for future missions, possibly even for a space station.
Conclusion:
As the Director of U R Rao Satellite Centre, M Sankaran, aptly put it, “From Saturday evening, the world was celebrating the new year with a lot of fireworks. India today celebrated the new year with the largest rocket firework ever.” ISRO’s successful launch of XPoSAT symbolizes a new chapter in space exploration, emphasizing India’s growing presence in the field of advanced space missions. The mission’s achievements echo the agency’s dedication to pushing the boundaries of space technology and contributing valuable insights to our understanding of the universe.