NASA has discovered a water planet 100 million light years away from Earth that completes an orbit of its star every 11 days.
A group of astronomers at the Université de Montréal came across the ocean planet through NASA’s Transiting Exoplanet Survey Satellite or TESS, according to a study published in The Astronomical Journal.
CNET reports that the planet covered by a blanket of water, named TOI-1452 b by scientists, is thought to live 100 million light years from Earth and orbits within a binary star system among the Draco constellation.
“It is thanks to the OMM, a special instrument designed in our labs called SPIRou and an innovative analytic method developed by our research team that we were able to detect this one-of-a-kind exoplanet.”
While more research still needs to be conducted, it’s believed that the newly-discovered planet is 70 per cent larger than Earth, and its density could be consistent with having a deep ocean.
Lead author of the study Charles Cadieux shared: “TOI-1452 b is one of the best candidates for an ocean planet that we have found to date.
“Its radius and mass suggest a much lower density than what one would expect for a planet that is basically made up of metal and rock, like Earth.”
It sounds like something right now in Christopher Nolan’s Interstellar; when astronauts visit Miller’s planet, which is covered by a seemingly endless shallow ocean. Honestly, just set up some floating cafes and a shopping district and we can call it home,
But astonishingly, the planet is reported to sit close enough to its star, accumulating a mild temperature that could potentially support life.
However, the kind of life and how long it could thrive is still something researchers are trying to figure out.
Professor Doyon revealed that the exoplanet needed to undergo further observation with NASA’s James Webb Space Telescope, the largest optical telescope in space known for its high infrared resolution, capturing shoots deep into the universe.
“Our observations with the Webb Telescope will be essential to better understanding TOI-1452 b,” she said.
“As soon as we can, we will book time on Webb to observe this strange and wonderful world.”