What will happen after our sun dies? Scientists have an answer now



Ever thought the day when there will be no sun? What will be the future of the universe after the death of the massive star?

Scientists agree the sun will die in approximately five billion years, but they weren't sure what would happen next -- until now.

PLANETARY NEBULA

A team of international astronomers, including Professor Albert Zijlstra from the School of Physics and Astronomy, predicts the sun will turn into a massive ring of luminous, interstellar gas and dust, known as a planetary nebula.

A planetary nebula marks the end of 90 per cent of all stars active lives and traces the star's transition from a red giant to a degenerate white dwarf.

But, for years, scientists weren't sure if the sun in our galaxy would follow the same fate: it was thought to have too low mass to create a visible planetary nebula.

To find out, the team developed a new stellar, data-model that predicts the lifecycle of stars. The model was used to predict the brightness (or luminosity) of the ejected envelope, for stars of different masses and ages. The research is being published in Nature Astronomy.

As Prof Zijlstra explains,

When a star dies it ejects a mass of gas and dust -- known as its envelope -- into space. The envelope can be as much as half the star's mass. This reveals the star's core, which by this point in the star's life is running out of fuel, eventually turning off and before finally dying. It is only then the hot core makes the ejected envelope shine brightly for around 10,000 years -- a brief period in astronomy.

"This is what makes the planetary nebula visible," he said. "Some are so bright that they can be seen from extremely large distances measuring tens of millions of light years, where the star itself would have been much too faint to see."

MORE ABOUT THE MODEL:

The model solves another problem that has been perplexing astronomers for a quarter of a century.

About 25 years ago, astronomers discovered that if you look at planetary nebulae in another galaxy, the brightest ones always have the same brightness.

It was found that it was possible to see how far away a galaxy was just from the appearance of its brightest planetary nebulae. In theory, it worked in any type of galaxy.

However, whilst the data suggested this was correct, the scientific models claimed otherwise.

"Old, low mass stars should make much fainter planetary nebulae than young, more massive stars. This has become a source of conflict for the past for 25 years," said Zijlstra.

"The data said you could get bright planetary nebulae from low mass stars like the Sun, the models said that was not possible, anything less than about twice the mass of the Sun would give a planetary nebula too faint to see," he said.

Source - India Today 

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