London: A new technique that has revealed weather patterns in a mysterious world beyond our solar system may soon be used to analyse potential of exoplanets to host life, says a study.
With the new method, the researchers detected layers of clouds, made up of hot dust and droplets of molten iron, on a planet-like object found 75 light years from Earth.
"This discovery shows just how ubiquitous clouds are in planets and planet-like objects. We're working on extending this technique to giant planets around young stars, and eventually we hope to detect weather in Earth-like exoplanets that may harbour life," said lead researcher Beth Biller from University of Edinburgh in Scotland.
The team used a telescope in Chile to study the weather systems in the distant world - known as PSO J318.5-22 - which is estimated to be around 20 million-years-old.
Researchers captured hundreds of infra-red images of the object as it rotated over a five-hour period.
By comparing the brightness of PSO J318.5-22 with neighbouring bodies, the team discovered that it is covered in multiple layers of thick and thin cloud.
These cause changes to the brightness of the distant world as it rotates, the team said.
The far-off world is around the same size as Jupiter - the largest planet in our solar system - but is roughly eight times more massive, the researchers pointed out.
Temperatures inside clouds on PSO J318.5-22 exceed 800 degrees Celsius, the team said.
The team were able to accurately measure changes in brightness on PSO J318.5-22 because it does not orbit a star. Stars like our sun emit huge amounts of light, which can complicate measurements made of the brightness of objects orbiting them.
The team hopes to adapt the technique so they can study planets that do orbit stars. Such techniques may eventually be applicable to cooler, lower mass planets, which are more likely to be capable of supporting life, the researchers explained.
The study was published in The Astrophysical Journal.