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Scientists find WATER on a planet 110 light years from Earth

Scientists find a ‘super Earth’ with WATER 110 light-years away in world-first discovery – and say it could have the conditions to support life

  • Scientists say planet is first outside our solar system that is potentially habitable
  • University College London scientists have found water vapour on distant planet 
  • Located 110 light years away, it has water, an atmosphere and right temperature  

Scientists have for the first time found a planet outside of our solar system that’s home to water, in a major breakthrough in the search for habitable worlds.

Water vapour has been discovered on a ‘super-Earth’ 110 light years away that is estimated to be twice the size of Earth and eight times its mass. 

K2-18b also has an atmosphere and the correct temperature range for living things to exist, according to scientists at University College London.

It’s closer to its star than the Earth is to the Sun, meaning it has shorter years, and completing its orbit in 33 days while ours takes 365.    

A computer-generated image has been released by UCL researchers to suggest what the potentially-habitable planet looks like


The habitable zone is the range of orbits around a star in which a planet can support liquid water.

This habitable zone is also known as the ‘Goldilocks’ zone, taken from the children’s fairy tale.

The temperature from the star needs to be ‘just right’ so that liquid water can exist on the surface.

The boundaries of the habitable zone are critical.

If a planet is too close to its star, it will experience a runaway greenhouse gas effect, like Venus.

But if it’s too far, any water will freeze, as is seen on Mars.

Since the concept was first presented in 1953, many stars have been shown to have a Goldilocks area, and some of them have one or several planets in this zone, like ‘Kepler-186f’, discovered in 2014.

The exoplanet was first spotted in 2015 by NASA’s Kepler spacecraft but analysis of data has revealed new details not seen before.

Current equipment is only able to determine basic factors such as how far away it is, its mass and the surface temperature.

But sophisticated tools developed at UCL have been able to translate data from the Hubble Space Telescope to make sense of the unique molecule signatures of water vapour. 

K2-18b is too far away for astronomers to see, but they can look at how starlight is filtered through the planet’s atmosphere as it passes around its own sun, called K2-18.  

‘It’s the only planet outside our solar system that we know has the correct temperature, an atmosphere and water,’ said Dr Angelos Tsiaras the author of the study.’

The presence of water vapour in the planet’s atmosphere suggests it could be a rocky world or an icy one with a lot of water inside it.

Most other exoplanets like this have been gas giants, such as Jupiter and Saturn, so K2-18b offers a valuable opportunity for researchers to study smaller, rocky or icy planets.

‘Of course, K2-18b is not a second Earth,’ Dr Tsiaras added, ‘because it is a planet that is much bigger and has a different atmospheric composition. 

‘It’s orbiting a completely different star, so it doesn’t look like Earth.

‘The search for habitable planets, it’s very exciting, but it’s here to always remind us that this (Earth) is our only home and it’s probably out of the question if we will be able to travel to other planets.’

Although the planet sits in the habitable zone of its solar system, scientists say that there is currently no way to determine whether there are signs of life.

Experts will continue to monitor the planet to confirm their theory that it is capable of sustaining life, and they can’t be sure how much water is actually on the planet.

The researchers hope that newer technology, such as the James Webb Space Telescope due to launch in March 2021, will be able to unlock more secrets beyond our solar system

The researchers hope that newer technology, such as the James Webb Space Telescope due to launch in March 2021, will be able to unlock more secrets beyond our solar system

They said the water content could be as low as 0.01 per cent or as high as 50 per cent.

About 71 per cent of the Earth’s surface is covered in water.

Dr Ingo Waldmann, a co-author on the study, added: ‘We don’t know how much water there is; however, what these models clearly say is that there is an atmosphere and that there is water there. 

The scientists, who spent more than a year on their work before publishing it in the journal Nature Astronomy, said they do not think K2-18b is the only planet of its kind. 

They hope that newer technology, such as the James Webb Space Telescope due to launch in March 2021, will be able to unlock more secrets beyond our solar system.

‘We are looking forward to the next generation of telescopes and go even further,’ Dr Tsiaras added. 

Professor Giovanna Tinetti said: ‘Our discovery makes K2-18b one of the most interesting targets for future study.’


The James Webb telescope has been described as a ‘time machine’ that could help unravel the secrets of our universe.

The telescope will be used to look back to the first galaxies born in the early universe more than 13.5 billion years ago, and observe the sources of stars, exoplanets, and even the moons and planets of our solar system.


The vast telescope, which has already cost more than $7 billion (£5 billion), is considered a successor to the orbiting Hubble Space Telescope

The James Webb Telescope and most of its instruments have an operating temperature of roughly 40 Kelvin – about minus 387 Fahrenheit (minus 233 Celsius). 

Officials say the cost may exceed the $8 billion (£5.6 billion) program cap set by Congress. The space agency has already poured $7 billion (£5 billion) into the telescope. 

When it is launched in 2020, it will be the world’s biggest and most powerful telescope, capable of peering back 200 million years after the Big Bang.

In January the telescope had been successfully tested in a giant vacuum chamber at the Johnson Space Centre – proving it will function in deep space. 

The telescope went through 100 days of cryogenic testing where temperatures dipped hundreds of degrees below the freezing point to ensure it functioned in extreme cold.



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