- Young looking star is actually probably quite old
- Seems to have recently devoured a companion star
- Leftover crumbs could be forming into planets
An astronomer may have caught a cannibalistic star in the act of devouring a companion and making a new generation of planets from the resulting cloud of leftover crumbs.
Using data from NASA’s Chandra X-ray Observatory, Joel Kastner, professor at Rochester Institute of Technology (RIT), has found evidence that a star in the constellation of Pisces—called BP Piscium, or BP Psc for short—is not the young star it appears to be, but is more likely a one billion-year-old red giant that has gobbled up a star or planet in its vicinity.
The star’s extreme properties have puzzled astronomers since Kastner and Ben Zuckerman, professor at the University of California, Los Angeles, first looked at BP Psc 15 years ago. The star is about 1,000 light-years from Earth.
Conflicting characteristics have caused confusion as to whether the star is young or old.
Kastner attributes the star’s potentially deceptive youthful appearance to two things: an surrounding cloud of gas and dust that resembles the sort that forms planets around young stars; and prominent “jets” extending from the poles of the star that eject material at high velocity.
A typical young star sucks in material from the surrounding cloud, incorporating about 90 percent of the material and spitting out the rest through jets or geysers shooting out in opposite directions.
Kastner and his colleagues were doubtful about the youth of the star. For one thing, the star is isolated, whereas most young stars form in clusters.
“As hard as people have looked, they have not been able to find [another] young star near BP Psc,” says Kastner, a professor in RIT’s Chester F. Carlson Centre for Imaging Science. “That was one of several things that made Ben [Zuckerman] and me suspect that it wasn’t actually young.”
Second, this enigmatic star in the Pisces constellation lacks the large abundance of lithium on its surface that is typical of young stars. Older stars lose their lithium in nuclear reactions when mixing and churning folds the gases into the centre of the star. According to Kastner, other key spectral features involving the star’s radius and surface gravity also point to the star’s advanced age.
Kastner is ready to close the debate with data obtained from the Chandra X-ray Observatory.
“The last piece of evidence, which, to me, is the nail in the coffin that BP Psc is old rather than young, is that its rate of X-ray production is very similar to old, yet rapidly spinning, giant stars that have surface temperatures similar to BP Psc,” Kastner says.
If BP Psc were a young star, it would emit X-rays in the hundreds, even up to a few thousand, in a day’s observing time with Chandra, Kastner notes. Instead, it is a weak X-ray source.
“We stared at BP Psc for one day with Chandra and only detected about 18 X-rays,” Kastner says. “We could almost name them.”
The rate of X-rays coming from the star are in keeping with a class of rapidly rotating old stars having similar temperature to BP Psc, Kastner says. This class is thought to be the result of one star swallowing another close companion star.
“Our working speculation is that we are observing the star right at the point at which it has swallowed its companion and hence formed a [surrounding cloud from the leftover bits],” Kastner says. “Some of the material that used to be its companion has fallen onto the star and some has been shot out at high speeds, and that’s what we’re seeing.”
The enigmatic star is likely about a billion years old and just entering the red giant stage in its life cycle in which it swells to digest its star or planet companion.
“It could be a small star or a large planet,” Kastner says. “We don’t know which it could be, but we’re very interested in finding out.”
“In order to understand the extrasolar planets that are now being discovered by the dozen, we need to figure out how planets might be forming and therefore where we should go look for them,” Kastner says. “I think this object is especially interesting because it gives us a good shot at finding young planets around an old star.”
Image credits: (X-ray) NASA / CXC / RIT / J. Kastner et al; (optical) UCO / Lick / STScI / M. Perrin et al; (illustration) CXC / M. Weiss.
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