Unnerving evidence of a devastating Apocalyptic event in a planetary system similar to our own has been uncovered.
Astronomers studying a dying star found the shredded remains of a watery asteroid suggesting that hundreds of millions of years ago the system may have harboured Earth-like habitable planets.
But any intelligent beings living there must have departed - assuming they had mastered space travel - or been extinguished as their sun blew up and then collapsed into a "white dwarf".
Scientists believe six billion years from now alien astronomers studying the burned out remains of our Sun may come to the same conclusion.
Like the white dwarf GD 61, the Sun is destined to end its life by first expanding into a Red Giant then shedding its outer layers and contracting into a super-dense glowing ember just a few thousand miles in diameter.
The dying Sun will radiate what is left of its heat over billions of years before finishing its life as a dead, cold, "black dwarf".
Astronomers studying the light emitted by GD 61, located 150 light years away from the Earth, detected an abundance of "rocky" elements such as magnesium, silicon and iron.
They also found oxygen in quantities that indicated a very large amount of water.
Only a water-rich massive asteroid, or minor planet, can explain the observations, say the scientists.
The giant rock, at least 90 kilometres in diameter, would have been drawn in by the white dwarf's powerful gravity and ripped apart.
If such an asteroid existed in the system, it is highly likely that rocky, water-covered, Earth-like planets did too.
Since only 0.02% of the Earth's mass consists of water, the oceans that cover its surface were probably delivered by impacts from watery asteroids and comets.
Dr Jay Farihi, from the Institute of Astronomy at Cambridge University, said: "The finding of water in a large asteroid means the building blocks of habitable planets existed - and maybe still exist - in the GD 61 system, and likely also around substantial number of similar parent stars.
"These water-rich building blocks, and the terrestrial planets they build, may in fact be common - a system cannot create things as big as asteroids and avoid building planets, and GD 61 had the ingredients to deliver lots of water to their surfaces.
"Our results demonstrate that there was definitely potential for habitable planets in this exoplanetary system."
The research appears in the latest issue of the journal Science.
Asteroids are essentially the building blocks of rocky planets. Water would have accounted for more than a quarter of the mass of the one believed to have orbited GD 61.
In our own Solar System, the giant asteroid Ceres contains a similar proportion of water in the form of subsurface ice.
The tell-tale excess oxygen in the dust and debris surrounding GD 61 was detected using powerful spectrograph techniques that look for chemical signatures in light.
Astronomers made the observations using the Hubble Space Telescope and the large Keck telescope on Hawaii.
"This oxygen excess can be carried by either water or carbon, and in this star there is virtually no carbon - indicating there must have been substantial water," said co-author Professor Boris Gansicke, from the University of Warwick.
"This also rules out comets, which are rich in both water and carbon compounds, so we knew we were looking at a rocky asteroid with substantial water content."
In its heyday, before becoming a white dwarf around 200 million years ago, the star had about three times the mass of the Sun.
The astronomers believe giant planets, such as Jupiter and Saturn, may still survive in the outer reaches of the system.
Their gravity probably upset the asteroid's orbit and nudged it close enough to the white dwarf to be shredded.
"This supports the idea that the star originally had a full complement of terrestrial planets, and probably gas giant planets orbiting it - a complex system similar to our own," said Dr Farihi.
Water buried under the asteroid's surface may have survived the expansion phase of the dying star, the scientists believe.