The Milky Way centre is a gigantic stellar desert
Pulsating, young Cepheid stars are all but non-existent in the innermost part of the galaxy.
Astronomers probing the innermost region of the Milky Way galaxy have found a stellar desert, around 16,000 light-years across, where no new stars have been born for hundreds of millions of years.
Noriyuki Matsunaga from the University of Tokyo and colleagues from Japan, Italy, Germany and South Africa looked for a type of pulsating star which is associated with young stars and found none in the middle of the Milky Way.
They published their work in the Monthly Notices of the Royal Astronomical Society.
The Milky Way is a spiral galaxy with curling arms and a massive central bulge made from billions of stars. Measuring where stars are distributed is key to understanding how our galaxy evolved. (Our star, the sun, is around 26,000 light-years from the centre.)
Pulsating supergiants stars called Cepheids are ideal for this job – they're young stars, between 10 and 300 million years old, and pulsate in brightness in a regular cycle.
Their pulsing rate is related to their brightness. If we see a Cepheid flashing at a certain rate, we can calculate its brightness and then, its distance from us.
Unfortunately, Cepheids are tough to spot in the middle of the galaxy. Interstellar dust clouds the view for many telescopes.
But not the Japanese-South African telescope in South Africa. It detects near-infrared radiation emitted by Cepheids which can travel through that interstellar dust.
And when Matsunaga and colleagues peered in the direction of the centre of the Milky Way, they found – to their amazement – hardly anything.
Cepheids had been found in the very middle of the galaxy in a region roughly 150 light-years across. But stretching 8,000 light-years from this central Cepheid-rich nugget was a desert.
Guiseppe Bono from the University of Rome Tor Vergata and co-author of the study said there had been no star formation in that large region for hundreds of millions of years.
Why? That's still a mystery. But it gives astronomers a new, juicy piece of the jigsaw puzzle that is our galaxy's evolution.