Euclid telescope sends back first images from 'dark universe' mission

Euclid's view of the Horsehead Nebula. Credit: European Space Agency

The first full-colour images of the universe captured by the Euclid space telescope have been released by the European Space Agency.

Five glittering pictures showcase galaxies and stars near and far, helping to uncover some of space’s hidden secrets.

The images released on Tuesday include one of the Perseus cluster of galaxies, which shows 1,000 galaxies belonging to the cluster, and more than 100,000 additional galaxies further away in the background.

Many of these faint galaxies were previously unseen, and some of them are so far that their light has taken 10 billion years to reach us.

Another image captures the spiral galaxy IC 342, nicknamed the Hidden Galaxy, because it is difficult to observe as it lies behind the busy disc of our Milky Way, and so dust, gas and stars obscure our view.

Euclid’s view of globular cluster NGC 6397. Credit: European Space Agency

One of the new pictures is of globular cluster NGC 6397 - the second-closest globular cluster to Earth, located about 7,800 light-years away.

Globular clusters are collections of hundreds of thousands of stars held together by gravity.

These faint stars tell us about the history of the Milky Way and where dark matter is located.

To create a 3D map of the universe, Euclid will observe the light from galaxies out to 10 billion light-years.

The first irregular dwarf galaxy that Euclid observed is called NGC 6822 and is located just 1.6 million light-years from Earth.

And the fifth image shows a panoramic and detailed view of the Horsehead Nebula, also known as Barnard 33 and part of the constellation Orion.

Euclid’s view of the Perseus cluster of galaxies. Credit: PA

Scientists hope to find many dim and previously unseen Jupiter-mass planets in their celestial infancy, as well as young brown dwarfs and baby stars, in this new observation.

Professor Carole Mundell, ESA director of science, said: “Dark matter pulls galaxies together and causes them to spin more rapidly than visible matter alone can account for; dark energy is driving the accelerated expansion of the universe.

“Euclid will for the first time allow cosmologists to study these competing dark mysteries together.

“Euclid will make a leap in our understanding of the cosmos as a whole, and these exquisite Euclid images show that the mission is ready to help answer one of the greatest mysteries of modern physics.”

Rene Laureijs, the ESA’s Euclid project scientist, said: “We have never seen astronomical images like this before, containing so much detail.

“They are even more beautiful and sharp than we could have hoped for, showing us many previously unseen features in well-known areas of the nearby universe.

“Now we are ready to observe billions of galaxies, and study their evolution over cosmic time.”

Euclid was launched on a SpaceX Falcon 9 rocket from Cape Canaveral, in Florida, on July 1.

Named after the ancient Greek mathematician Euclid, the two-tonne probe made its way towards an area in space known as the second Lagrange point, where the gravitational forces of Earth and the sun are roughly equal - creating a stable location for the spacecraft.

The UK has contributed £37 million towards the £850 million mission, with scientists playing key roles in designing and building the probe and leading on one of the two scientific instruments on board.

Euclid’s view of spiral galaxy IC 342. Credit: European Space Agency

Dr Caroline Harper, head of space science at the UK Space Agency, said: “These first colour images showcase Euclid’s enormous potential, giving us incredibly sharp images of galaxies and stars, and helping us understand more about the impacts of dark matter and dark energy on the universe.

“The UK has played an important role in the mission, leading on the development of the visible imager (VIS) instrument and on key elements of the data processing pipeline, funded by the UK Space Agency.

“And this is just the start - UK researchers will be using Euclid data for many years to come to make significant new scientific discoveries about the composition and evolution of the cosmos.”

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