When massive stars reach the end of their lives, they can explode in fiery fits called supernovas. Astronomers calculate that about three stars explode in a specific category of supernova called Type 1a every thousand years in the Milky Way.
That means that within a few thousand light-years of Earth there should be dozens of stars on the verge of exploding.
Yet while scientists know these stars are out there, they’ve had trouble so far identifying which stars are nearing the explosion point. But the new research offers hope of finding the ticking time bombs more easily by looking for features that had previously been ignored.
The reigning theory behind Type 1a supernovas is that they are caused when old, dense stars called white dwarfs slowly steal mass from nearby companion stars until they reach a tipping point, becoming too massive to fight against the inward pull of gravity, and collapse.
This weight limit, about 1.4 times the mass of the sun, is called the Chandrasekhar mass.
But if that is the case, scientists would expect to find these companion stars left over after supernovas fade from sight.
They also predict small amounts of hydrogen and helium gas would have been left nearby, representing material that wasn’t sucked into the white dwarf, or that was dislodged from the companion in the explosion.
As a star gobbles up more mass, it also increases its angular momentum, which causes it to spin up. This increased spin can act as a stabilizing force, allowing the white dwarf to tip the scales over the Chandrasekhar mass without exploding.
After the star stops eating its neighbor’s mass, however, it will gradually slow down, and eventually succumb to gravity in a supernova.
Yet the spinning effect could give the star a buffer, perhaps of up to a billion years, between when the white dwarf stops accreting mass, and when it explodes. During this lag, the leftover gas from the companion star may dissipate, and the companion could evolve into a white dwarf itself.
The new model suggests a new tack for hunting impending supernovas. According to the research, astronomers could start to look for white dwarf stars that have already reached the Chandrasekhar limit, and are in the process of spinning down.
- Hunt Is on for Ticking ‘Time Bomb’ Stars (livescience.com)
- What makes a supernova so super, anyway? [Starts With A Bang] (scienceblogs.com)
- Thousands of white dwarf stars could theoretically explode at any moment [Astronomy] (io9.com)
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