Sign of the future: On ISRO’s PSLV C58 mission

The PSLV C58 mission is a symbol of the demands being made of ISRO

Two missions the Indian Space Research Organisation (ISRO) has launched in the five months since its success with Chandrayaan-3 have both been scientific in nature: the Aditya L-1 space probe to study the sun and the X-ray Polarimeter (an instrument which measures the angle of rotation by passing polarized light through an optically active (chiral) substance). Satellite (XPoSat) to study polarised X-rays emitted in astrophysical (related to the study of stars and other objects in space using physical laws) phenomena. ISRO launched the XPoSat, in a two-part mission, onboard a Polar Satellite Launch Vehicle (PSLV) on its C58 flight on January 1. The relative timing of these launches may be a coincidence but it is heartening (making you feel happier and more positive) because the ratio of scientific to technological missions ISRO has launched is skewed (not accurate or exact) in favour of the latter, at the expense of research in the sense of discovery. Those science-oriented missions have all been exceptional (much greater than usual, especially in skill, intelligence, quality, etc) in their own right. For example, XPoSat is only the second space-based experiment to study X-ray polarisation, and at higher x-ray energies than the other, NASA’s Imaging X-ray Polarimetry Explorer. Its POLIX payload, realised by the Raman Research Institute, will track X-rays in the 8-30 kilo-electron-volt (keV) energy range and observe (to watch carefully the way something happens) emissions from around 50 sources in five years. The XSPECT payload, by ISRO’s U.R. Rao Satellite Centre, will study X-rays of energy 0.8-15 keV and changes in continuous X-ray emissions (the act of sending out gas, heat, light, etc). Together, they are expected to shed light on intense (extreme and forceful or (of a feeling) very strong) X-ray sources such as pulsars and black holes.

Then again, the science-technology skew is a reminder that ISRO among the world’s spacefaring organisations has unique needs and priorities (something that is very important and must be dealt with before other things). This is exemplified by the second part of the C58 mission. After launching XPoSat in a 650-km circular orbit around the earth, the fourth stage of the rocket lowered itself into a 350-km-high orbit and unfurled (make or become spread out from a rolled or folded state, especially in order to be open to the wind) solar panels, becoming a rudimentary satellite and orbital testbed for the 10 payloads it carried. These are a radio payload by the K.J. Somaiya Institute of Technology and a device to measure ultraviolet radiation from L.B.S. Institute of Technology for Women; a ‘green’ cubesat propulsion unit, a ‘green’ monopropellant thruster, a tantalum-based radiation (a form of energy that comes from a nuclear reaction and that can be very dangerous to health) shield (to protect someone or something), a heater-less hollow cathode, and a nanosatellite platform, all from private entities; and an interplanetary dust counter, a fuel-cell power system, and a high-energy cell from ISRO centres. This is only the third time ISRO has operated the PSLV fourth stage in this way. As such, the C58 mission represents a union of the aspirations of professional scientists, aspiring students of science, and India’s private spaceflight sector. This again is a vignette (to describe briefly) of the demands of ISRO itself as it navigates (to deal effectively with a difficult situation) an era in which a permanent lunar station seems inevitable (certain to happen and unable to be avoided or prevented), drawing as much on technological capabilities as — based on scientific missions — humankind’s knowledge of the universe.

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