A Strange Supernova
Astronomers studying a violent stellar explosion have witnessed a unique supernova phenomenon that’s like nothing they’ve seen before.
Researchers discovered the supernova, known as ASASSN-18bt (or SN 2018oh), this past February. And, strangely, within the early stages of the stellar explosion, researchers saw an unusual burst of light emerge. New analysis of this unique supernova could help researchers gain insight into the still-unclear process of how stars die and explode.
SN 2018oh is a Type 1A supernova, one thought to be created from a white dwarf, the core of a star after it’s used up all of its fuel. Type Ia supernovae occur when material from a nearby star is added to the white dwarf, but exactly how this mechanism works is still a mystery to astronomers.
These types of supernovae are important because they create many of the elements common in the cosmos and also because astronomers use them to gauge cosmic distances.
SN 2018oh was discovered using a variety of telescopes gathered at Ohio State University, where astronomers scan the sky for cosmic explosions as part of the All-Sky Automated Survey for Supernovae (ASAS-SN). NASA’s Kepler space telescope simultaneously observed the supernova to gather supporting data.
Studying an Explosion
Supernovae usually emit light in a gradually-increasing amount, so seeing a sudden burst of light was extremely unexpected.
This emission could have been created by the collision between the exploding white dwarf and its companion star, previous research has suggested.
But the follow-up data from SN 2018oh doesn’t fit predictions for how this should look, Carnegie astronomer Tom Holoien, a member of the team that discovered and now studies the supernova, said in an accompanying statement. “Other possibilities, such as an unusual distribution of radioactive material in the exploded star, are a better explanation for what we saw. More observations of ASASSN-18bt and more early discoveries like this one will hopefully help us differentiate between different models and better understand the origins of these explosions,” Holoien added.
So, potentially, this emission could have been created by radioactive material distributed in an unexpected way in the exploded star. But, as Holoien explained, more observation and analysis will be required before a formal conclusion can be reached about this supernova.
These findings support recent work from the Carnegie Supernova Project that suggests that there may be two different variations of Type Ia supernovae, some that display this kind of early emission, and some that don’t.
“Nature is always finding new ways to surprise us, and unique observations like this are great for motivating creative new approaches to how we think about these explosions,” Carnegie’s Anthony Piro, who analyzed the strange emission, said in the statement.
These findings are published in three papers in The Astrophysical Journal and The Astrophysical Journal Letters (You can find them here, here, and here.)