London, December 17: Instead of discovering planet astronomers have detected a star forming in the outer regions of the disc of dust and gas surrounding a massive star.
The major object, referred to as MM 1a, is a young massive star surrounded by a rotating disc of gas and dust that was the focus of the scientists original investigation.
An undefined object, referred to as MM 1b, was detected just after the disc in orbit around MM 1a, according to the study published in the Astrophysical Journal Letters.
"Stars form within large clouds of gas and dust in interstellar space," said lead researcher John Lee from the University of Leeds in Britain.
"When these clouds subside under gravity, they begin to rotate faster, forming a disc around them. In low mass stars like our Sun, it is in these discs that planets can form.
"In this case, the star and disc we have observed are so enormous that, rather than witnessing a planet forming in the disc, we are seeing another star being born," Lee added.
By measuring the amount of radiation emitted by the dust, and precise shifts in the frequency of light emitted by the gas, the researchers were able to calculate the mass of MM 1a and MM 1b.
They found that MM 1a weighs 40 times the mass of our Sun. The smaller orbiting star MM 1b was calculated to weigh less than half the mass of our Sun.
"Many older massive stars are found with nearby companions," added Lee.
"But binary stars are often very equal in mass, and so likely formed together as siblings. Finding a young binary system with a mass ratio of 80:1 is very unusual, and suggests an entirely different formation process for both objects," Ilee said.