Sagittarius A*: The Supermassive Black Hole at the Centre of Our Galaxy We Are All Orbiting
Aishwarya Kapoor | Times Life Bureau | Jul 13, 2026, 07:57 IST
Sagittarius A*: The Supermassive Black Hole at the Centre of Our Galaxy We Are All Orbiting
Image credit : Times Life Bureau
Four million times the mass of the Sun sits at the centre of the Milky Way, and every star in our galaxy, including our own, orbits it. Sagittarius A* is not a distant cosmic curiosity. It is the gravitational anchor our solar system has been circling for roughly 225 million years, at a speed of 828,000 kilometres per hour.
Four Million Suns Compressed Into a Point
The event horizon, the point of no return, spans roughly 12 million kilometres across. By cosmic standards, that is compact. The gravity it generates, however, governs the motion of billions of stars across a structure 100,000 light-years wide.
Our Solar System's Very Long Commute
The last time Earth was at this position in its galactic orbit, the Triassic period was beginning and dinosaurs had not yet appeared. One orbit before that, the planet did not yet have complex animal life. The orbit of our solar system around Sagittarius A* is one of the longest clocks in nature, and it has been running without interruption.
The 2022 Image That Made It Real
Producing the image required synchronising radio telescopes across four continents into a single virtual dish the size of Earth. One of the participating facilities was the South Pole Telescope. The data took years to process. The difficulty was that Sagittarius A* is far more turbulent than M87*, the gas around it shifts on timescales of minutes, compared to days for the larger black hole. The collaboration had to develop new imaging techniques to stabilise the signal.
What ISRO and Indian Astronomy Bring to This
ISRO's AstroSat, launched in 2015, carries instruments for X-ray and ultraviolet observation. X-ray flares from the direction of Sagittarius A*, bursts of energy that occur when gas falls toward the black hole, are among the phenomena AstroSat-class missions are designed to study. India's space science programme is not peripheral to this field. The galactic centre is one of the most X-ray-bright regions of the sky, and Indian instrumentation has a direct line of sight to it.
Gravity This Large Does Not Announce Itself
The stars closest to Sagittarius A*, the S-cluster stars, move at a fraction of the speed of light. S2 reaches about 2.7 percent of the speed of light at its closest approach. Our solar system, at 26,000 light-years out, moves at a tiny fraction of that. Distance from the black hole is, in the most literal sense, distance from its grip.
What the image of Sagittarius A* settled is not just a scientific question about what sits at the galactic centre. Every model of how the Milky Way formed, how its spiral arms maintain their shape, how stellar populations distribute themselves across 100,000 light-years, all of it depends on the mass and position of the object at the centre being known precisely. The 2022 image fixed that anchor point with a clarity no prior measurement had achieved. Our galaxy's shape is, in the end, a consequence of that one object's gravity, working outward across every stellar orbit including ours.