Publication in Nature Communications: – Binary stars exploding as supernovae type Ic

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A binary system of interacting stars. Explosions of supernovae type Ic come from such systems. 
Credit: ESO/M. Kornmesser/S.E. de Mink
A binary system of interacting stars. Explosions of supernovae type Ic come from such systems.
Credit: ESO/M. Kornmesser/S.E. de Mink

Binary stars exploding as supernovae type Ic

Astronomers from the Astronomical Observatory Institute of the Adam Mickiewicz University in Poznań (Poland) have solved the mystery of enigmatic cosmic explosions known as supernovae type Ic. During these very energetic explosions we do not see hydrogen or helium, so it was suggested in the past that they were very massive stars (20-30 times more massive than our Sun) which remove their hydrogen and helium envelope before they explode.

The team used the largest telescope array in the world, the Atacama Large Millimeter Array, located at 5000 m of elevation in the north of Chile. They observed carbon monoxide line emission which was used to measure the amount of molecular hydrogen, the fuel out of which stars form, at the positions of various supernova explosions. Molecular hydrogen clouds survive around 20 million years, so the more hydrogen we find at a supernova position, the shorter life the exploding star has lived.

The observations revealed similar amounts of hydrogen at the positions of studied supernovae type Ic and supernova type II, which are known to be explosions of stars 8-15 times more massive than the Sun. Hence, stars exploding as type Ic supernovae have similar lifetimes, so they have similar masses and are therefore not

The ALMA data showing molecular hydrogen around the positions of supernova type Ic.
Credit: Martín Solar
The ALMA data showing molecular hydrogen around the positions of supernova type Ic.
Credit: Martín Solar (AMU)
very massive stars, as previously thought. This means that the main mechanism of removing hydrogen and helium is the interaction with another star in a binary system, so that the companion star takes away the outer layers from the star that eventually explodes as a supernovae type Ic.

The fact that supernovae type Ic are binary systems of less massive stars is essential for our understanding of how elements are formed in our Universe and how galaxies evolve.
 
 
The publication in Nature Communications is available here.
 
 
 
 
2024-09-03, MS, MM