Neutron stars are dead relics that have collapsed into very small, dense spheres with tough crusts. Forces welling from within can crack the crusts during events called star quakes, similar to earthquakes.
The awesome power of those quakes can blast gamma rays into space, leading scientists to suspect that the stars' crusts must be very hard to break.
A new study suggests how strong they are: The crust of neutron stars could be 10 billion times stronger than steel, based on an innovative model of elements compressed as tightly as they would be on the surface of a neutron star.
In 2004, astronomers spotted a spectacular gamma-ray explosion bursting off a neutron star in the Sagittarius constellation, 50,000 light years from Earth. The star, SGR 1806-20, is a magnetar, a type of neutron star that has a powerful magnetic field. NASA and European satellites and astronomers around the world detected the flare, which for a tenth of a second was brighter than anything ever seen beyond our solar system. It was the biggest such flare ever spotted and one of only four that have been seen so far.
"We think that these giant flares are coming from really, really big star quakes," said Indiana University physicist Charles Horowitz. Only a super-strong crust could have exploded so forcefully, he explained.
To find out how strong the crusts of neutron stars really are, Horowitz and a colleague created a computer simulation of a star's surface. Though the interior of the star is a kind of fluid mass of mostly neutrons, the crust is composed of broken-up atoms, the nuclei of unknown elements. To simulate this, Horowitz used the computer program to squeeze together virtual selenium atoms, pressing them into tiny cubes. He determined that the crust is billions of times stronger than even the hardiest metal alloys here on Earth.
"You can't produce anything like these conditions on Earth, which is why we did not know the strength before," he said. His results were published May 8 in the journal Physical Review Letters.
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This next part was my favorite part of the article:
Neutron stars are so dense that if you could dip a teaspoon into one of them and scoop out some of its neutrons the spoon would weigh 100 million tons. If you were to hold that empty teaspoon just one yard above the star's surface and drop it, it would strike the surface at 4.3 million mph.
via Neutron Star Crust Is Stronger than Steel.
Neutron Star Crust. Great band name.
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