New type of exploding star observed

 
The Kepler Space Telescope has enabled astronomers to study a new kind of exploding star.

 

A
a
-
An artist’s depiction of a FELT event. In the left image, a dying red star ejects mass into space. This creates a shell around the star. In the centre image, the star’s core explodes. In the right image, the supernova shockwave hits the shell, converting the energy into a burst of light.
Credit: NASA, ESA, and A. Feild (STScI)

 

Astronomers have been able to analyse a new type of stellar explosion that had previously eluded detailed observation.

Known as a FELT (Fast-Evolving Luminous Transient), these phenomena are a newly discovered kind of supernova, or exploded star.

NASA’s Kepler Telescope - normally used to search for planets orbiting stars outside our Solar System - has been used to view these events and enable astronomers to learn more about them.

 


Read more about exploding stars from BBC Sky at Night Magazine:


 

FELTs are supernovae that get a brief but powerful boost in brightness.

The cause of this flash is a star that collapses and explodes as a supernova, but on these occasions the star is enclosed in one or more shells of gas and dust.

Energy from the explosion hits the shell, and the energy is converted into light.

This burst in radiation last just a few days, which is about 10 per cent of the length of a typical supernova.

Due to their brevity, only a few have been seen in past sky surveys.

But Kepler collects data on a patch of sky every 30 minutes, meaning it is able to observe FELTs that might be missed by other surveys.

 


Dr Brad Tucker from the Australian National University discusses the observations of this new kind of supernova.

 

Kepler observations also revealed that the stars in question eject the shell of matter less than a year before going supernova.

This means that FELTs occur in stars that eject shells of matter in mini eruptions shortly before they explode.

"We collected an awesome light curve," says Armin Rest of the Space Telescope Science Institute.

"We were able to constrain the mechanism and the properties of the blast. We could exclude alternate theories and arrive at the dense-shell model explanation."

"This is a new way for massive stars to die and distribute material back into space.

 

Read more about this story here


 

Like this article? Why not:
Hubble solves Magellanic mystery
previous news Article
Mercury-like exoplanet discovered
next news Article
We use cookies to improve your experience of our website. Cookies perform functions like recognising you each time you visit and delivering advertising messages that are relevant to you. Read more here