Known as BDR J1750+3809 or Elegast, the object is actually a brown dwarf
Researchers have discovered a bizarre “super-planet” for the first time using radio observations, according to a new study.
Known as BDR J1750+3809 or Elegast, the “super-planet” is actually a brown dwarf, a celestial object that is too cold and small to be a star. The discovery was made by researchers at the University of Hawaii, working in conjunction with tools from NASA and the Low-Frequency Array (LOFAR) telescope in Europe.
“This work opens a whole new method to finding the coldest objects floating in the sun’s vicinity, which would otherwise be too faint to discover with the methods used for the past 25 years,” the study’s co-author, Michael Liu, said in a statement.
Artist’s impression of the discovery dubbed Elegast. The blue loops depict the magnetic field lines. (ASTRON/Danielle Futselaar)
Brown dwarfs are generally harder to find using methods that astronomers normally use to find other stars. However, the light they emit at radio wavelengths was vital in the discovery of Elegast, the researchers added.
Since they lack the mass to trigger hydrogen fusion, they can’t be considered stars. Given their gaseous atmospheres, brown dwarfs resemble Jupiter and Saturn, the gas giants in our solar system, more than they resemble stars themselves.
“We asked ourselves, ‘Why point our radio telescope at cataloged brown dwarfs?'” the study’s lead author, Harish Vedantham, added. “Let’s just make a large image of the sky and discover these objects directly in the radio.”
With the discovery of BDR J1750+3809, the researchers hope that more brown dwarfs — the closest things to exoplanets — could be discovered with radio telescopes
The research has been published in the Astrophysical Journal Letters.
More than 4,500 exoplanets have been discovered so far, with only a small portion thought to have the properties to contain life.
In October, a separate group of researchers discovered 24 potential “superhabitable” planets that may have conditions more suited to host life.