Lonely 'homeless' planet found for the first time
- Patel row: Army conducts flag march to restore peace; seven dead in violence
- I know the exact cause of Sheena's murder: Indrani's son Mikhail Bora
- 26/11 Mumbai attack: Pakistan FIA did not probe role of Hafiz Saeed and David Headley
- Two US television journalists shot dead during live show; gunman dies in hospital
- OROP: Ex-servicemen say govt short changing them, dismiss its proposal
Astronomers for the first time have discovered a young "homeless planet", up to seven times the size of Jupiter and with no gravitational ties.
The lonely planet, called CFBDSIR2149 at the moment does not orbit a star. It is the first isolated planet of its kind ever to be discovered by scientists, after more than a decade of searching in a process described as looking for a single needle in amongst thousands of haystacks.
"Although theorists had established the existence of this type of very cold and young planet, one had never been observed until today," said Étienne Artigau, an astrophysicist at University of Montreal (UdeM).
The absence of a shining star in the vicinity of this planet enabled the team to study its atmosphere in great detail. This information will in turn enable astronomers to better understand exoplanets that do orbit stars.
Free-floating planets are planetary-mass objects that have no gravitational link to a star.
"Over the past few years, several objects of this type have been identified, but their existence could not be established without scientific confirmation of their age," said Jonathan Gagne, a doctoral student of physics at UdeM.
"Astronomers weren't sure whether to categorise them as planets or as Brown dwarfs. Brown dwarfs are what we could call failed stars, as they never manage to initiate nuclear reactions in their centres," Gagne said in a statement Researchers were able to find this planet with the assistance of French astronomers.
The planet is in fact called CFBDSIR2149 and appears to be part of a group of very young stars known as the AB Doradus Moving Group.
"This group is unique in that it is made up of around thirty starts that all have the same age, have the same composition and that move together through space. It's the link between the planet and AB Doradus that enabled us to deduce its age and classify it as a planet," researcher Lison Malo explained.