Astrophysicists have long debated about what happens when binary stars, two stars that orbit one another, come together in a common envelope. When this dramatic cannibalizing event ends there are two possible outcomes; the two stars merge into a single star or an initial binary transforms into an exotic short-period one.
The event is believed to take anywhere from a dozen days to a few hundred years to complete. Either length is considered to be extremely fast in terms of celestial events. More than a half of all stars in the universe are binary stars. Up until now, researchers had no idea what a common envelope event would look like.
U of A theoretical astrophysicist Natalia Ivanova analyzed the physics of what happens in the outer layers of a common envelope.
She found that hot and ionized material in the common envelope cools and expands and then releases energy in the form of a bright red outburst of light. Ivanova linked these theoretically anticipated common envelope outbursts with recently discovered luminous red novae, mysterious transients that are brighter than novae and just a bit less luminous than supernovae. Her research provided both a way to identify common envelope events and explained the luminosity generated during the common envelope event.
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