Astronomers Puzzled by Extremely Peculiar Object in Deep Space

It's made of... what?

 

Artist Impression Image from Getty Images

Astronomers have discovered a mysterious neutron star that's far lighter than previously thought possible, undermining our understanding of the physics and evolution of stars. And fascinatingly, it may be composed largely of quarks.

 

As detailed in a new paper published in the journal Nature Astronomy, the neutron star has a radius of just 6.2 miles and only the mass of 77 percent of the Sun.

 

That makes it much lighter than other previously studied neutron stars, which usually have a mass of 1.4 times the mass of the Sun at the same radius.

 

The team of astronomers, led by Victor Doroshenko of Eberhard Karls University of Tübingen in Germany, therefore suggest it could be an entirely new type of star.

 

"Our mass estimate makes the central compact object in HESS J1731-347 the lightest neutron star known to date, and potentially a more exotic object — that is, a 'strange star' candidate," the paper reads.

 

Neutron stars, which are some of the densest objects in the known universe, are typically formed after supergiant stars go supernova.

 

The star's core can then implode, compressing all of that mass into an extremely dense object. According to scientists' calculations, a single teaspoon of neutron star would have a mass of 2.2 trillion pounds.

 

But this newly discovered object defies our known definitions and boundaries.

 

Doroshenko and his team found that the star is actually much closer to us than we thought using data obtained by the European Space Agency's Gaia spacecraft, which allowed them to recalculate the mysterious star's mass.

 

The resulting mass and radius, though, simply don't fit into our current definition of a neutron star, which makes this new discovery a possible "strange star" candidate, according to the team.

 

Strange stars are hypothetical celestial objects thought to be made up of largely "strange quark" matter, allowing them to have lower temperatures and masses of other neutron stars.

 

Astronomers have also suggested that strange stars could be behind fast radio bursts, mysterious and powerful bursts of radio pulses that have yet to be explained.

 

In short, it's a highly unusual object that could rewrite our understanding of the universe.

 

"Such a light neutron star, regardless of the assumed internal composition, appears to be a very intriguing object from an astrophysical perspective," Doroshenko and his team wrote in a statement.