This is an archive page

Press release Help People AZ Search Home
The University of Sussex

 08 January 2002 

Good news: how the Earth will survive when the Sun becomes a supergiant

The astronomy textbooks will have to be rewritten, say astrophysicists at the University of Sussex who have re-examined standard calculations about solar evolution and the distant future of the Earth.

The textbooks tell us that one day the Sun will burn up its nuclear fuel and expand to an enormous size, finally engulfing its inner planets including Earth. However, using the latest data based on real stars, the University of Sussex researchers suggest a (slightly) less catastrophic future for our planet.

As their hydrogen fuel runs out at the end of their 'lives', stars like the Sun expand to become a red supergiant of several hundred times their initial diameter. Most astronomers expect the solar red supergiant to swallow Mercury, Venus and then Earth in about 7.5 billion years' time, when it has expanded beyond the orbit of our planet.

But Earth may survive after all, say the Sussex astronomers, if an important extra detail is considered: the ongoing loss of mass and weakening gravity while a star is a red supergiant.

Dr Robert Smith, Reader in Astronomy, explains the significance of this effect: "Taking this into account, the orbit of the Earth would increase beyond the Sun's outer atmosphere by a small but crucial margin at all phases of the Sun's evolution - allowing our planet to continue."

The new calculations are published in the current issue of Astronomy & Geophysics - the article is available online in pdf format - 270K . They were made by Dr Smith together with Dr Klaus-Peter Schröder from the University's Astronomy Centre and Kevin Apps, the famous student stargazer who co-discovered 10 planets while still an undergraduate at Sussex.

Although the Earth may survive, long before then its surface will have become too hot to sustain human life. But the good news from the team of researchers is that it will be 5.7 billion years before our planet becomes a no-go zone for life - about 200 million years later than previously thought.

So, ask the Sussex astronomers, is there anywhere in the solar system that would be safe, or does our survival depend on finding another star system? Is it possible to hop outwards from one planet or satellite to the next, always keeping ahead of the Sun? There are periods, they calculate, when we could in principle survive on one of the outer planets such as Mars, but there will be long gaps when none of them is habitable.

Dr Smith concludes: "We had better get used to the idea that we shall need to build our own survival capsules - the planets are simply too far apart for planet-hopping to be a viable solution. Perhaps this is the ultimate justification for developing an International Space Station."




 Notes for editors 

For further information, please contact Alison Field or Peter Simmons, University of Sussex, Tel. 01273 678888, Fax 01273 877456, email A.Field@sussex.ac.uk or P.J.Simmons@sussex.ac.uk.

 Useful links 

Information for Journalists   Previous press releases   University Homepage

 

Publication Details
Page Created By: The Press and Communications Office
Email: press@sussex.ac.uk
Page Last Modified: Monday, January 14, 2002
Template Version: USIS Bulletin Series
Text-Only (now disabled)   Feedback   Disclaimer