ESA Top Multimedia

Earth from Space: Frozen borders

This Copernicus Sentinel-2 image captures the borders between North and South Dakota and Minnesota blanketed with snow and ice.

Hubble’s panoramic view of the Andromeda Galaxy

Video tour of Hubble’s panoramic view of the Andromeda Galaxy

This video shows a panoramic view of the neighboring Andromeda galaxy, located 2.5 million light-years away. The spiral disk galaxy is inclined to our view, making it look elliptical. Young blue stars are around the outer rim. Yellowish older stars are toward the center. The bright hub of the galaxy looks like the center of a fried egg. It took over 10 years to make this vast and colorful portrait of the galaxy, requiring over 600 Hubble snapshots. This stunning mosaic captures the glow of 200 million stars. The camera zooms into the central portion of the galaxy, resolving a sea of myriad older stars. The camera pans along the galaxy’s vast disk which is over 200,000 light-years across. The view is etched with dark dust clouds. The stellar population looks bluer as we move toward the galaxy’s outer rim, rich in bright blue star clusters.

EarthCARE images smoke layer from Los Angeles fire

Mars plays hide and seek with Wolf Moon

Ariane 6 boosters on the road for liftoff

Ariane 6 boosters being transferred from the booster storage building to the launch pad

Ariane 6 central core on the move

Ariane 6 Central Core being transferred from the launcher assembly building to the launch pad

The best Milky Way map, by Gaia (edge-on)

The best Milky Way map, by Gaia (artist impression, edge-on)

The best Milky Way animation, by Gaia

This is a new artist’s animation of our galaxy, the Milky Way, based on data from ESA’s Gaia space telescope.

Gaia has changed our impression of the Milky Way. Even seemingly simple ideas about the nature of our galaxy’s central bar and the spiral arms have been overturned. Gaia has shown us that it has more than two spiral arms and that they are less prominent than we previously thought. In addition, Gaia has shown that its central bar is more inclined with respect to the Sun.

No spacecraft can travel beyond our galaxy, so we can’t take a selfie, but Gaia is giving us the best insight yet of what our home galaxy looks like. Once all of Gaia’s observations collected over the past decade are made available in two upcoming data releases, we can expect an even sharper view of the Milky Way.

Click here to download the still image of the Milky Way.

Light echoes near Cassiopeia A

Little Red Dots (NIRCam Image)

BepiColombo's sixth Mercury flyby: the movie

Fly over Mercury with BepiColombo for the final time during the mission’s epic expedition around the Sun. The ESA/JAXA spacecraft captured these images of the Solar System's smallest planet on 7 and 8 January 2025, before and during its sixth encounter with Mercury. This was its final planetary flyby until it enters orbit around the planet in late 2026.

The video begins with BepiColombo's approach to Mercury, showing images taken by onboard monitoring cameras 1 and 2 (M-CAM 1 and M-CAM 2) between 16:59 CET on 7 January and 01:45 CET on 8 January. During this time, the spacecraft moved from 106 019 to 42 513 km from Mercury's surface. The view from M-CAM 1 is along a 15-metre-long solar array, whereas M-CAM 2 images show an antenna and boom in the foreground.

After emerging into view from behind the solar array, Mercury appears to jump to the right. Both the spacecraft and its solar arrays rotated in preparation for passing through Mercury's cold, dark shadow.

For several hours after these first images were taken, the part of Mercury’s surface illuminated by the Sun was no longer visible from the M-CAMs. BepiColombo's closest approach to Mercury took place in darkness at 06:58:52 CET on 8 January, when it got as close as 295 km.

Shortly after re-emerging into the intense sunlight, the spacecraft peered down onto the planet's north pole, imaging several craters whose floors are in permanent shadow. The long shadows in this region are particularly striking on the floor of Prokofiev crater (the largest crater to the right of centre) – the central peak of that crater casts spiky shadows that exaggerate the shape of this mountain.

Next, we have a beautiful view of Mercury crossing the field of view from left to right, seen first by M-CAM 1 then by M-CAM 2 between 07:06 and 07:49 CET. These images showcase the planet's northern plains, which were smoothed over billions of years ago when massive amounts of runny lava flowed across Mercury's cratered surface.

The background music is The Hebrides overture, composed by Felix Mendelssohn in 1830 after being inspired by a visit to Fingal’s Cave, a sea cave created by ancient lava flows on the island of Staffa, Scotland. Similarly shaped by lava is Mercury's Mendelssohn crater, one of the large craters visible passing from left to right above the solar array in M-CAM 1's views, and at the very bottom of M-CAM 2's views. The Mendelssohn crater was flooded with lava after an impact originally created it.

The end of the video lingers on the final three close-up images that the M-CAMs will ever obtain of Mercury. The cameras will continue to operate until September 2026, fulfilling their role of monitoring various parts of the spacecraft. After that point, the spacecraft module carrying the M-CAMs will separate from BepiColombo's other two parts, ESA's Mercury Planetary Orbiter (MPO) and JAXA's Mercury Magnetospheric Orbiter (Mio). MPO’s much more powerful science cameras will take over from the M-CAMs, mapping Mercury over a range of colours in visible and infrared light.

Quasar J0742+2704

Webb watches carbon-rich dust shells form, expand in star system

Land burned by Palisades wildfire

Giant black hole gobbling up doomed white dwarf star

Los Angeles struggles to contain wildfires

Five wildfires are still currently burning (as of 10 January) in areas of north Los Angeles. This image, captured by the Copernicus Sentinel-3 mission on 9 January 2025, shows the Palisades and the Eaton fires, with smoke seen reaching Catalina Island and the Santa Barbara reserve.

Ringing in the new year

ESA Director General’s Annual Press Briefing

Watch the replay of ESA's start-of-the-year press briefing looking ahead to 2025.

Download the presentation slides.

Best images from BepiColombo's sixth Mercury flyby

ESA astronaut reserve training

Members of the ESA Astronaut Reserve participate in a two-month intensive training experience at the European Astronaut Centre (EAC) in Cologne, Germany. The programme aims to equip the members of ESA’s astronaut reserve with the essential skills required for future space exploration and scientific research. During the ESA astronaut reserve training, they cover key modules from ESA’s basic training programme, which typically prepares career astronauts for various missions. The training includes a mix of technical and operational skills, spacecraft systems, initial spacewalk training, and survival exercises in both water and winter conditions.

See and hear three years of solar fireworks

At the start of this new year, we look back at close-up pictures and solar flare data recorded by the ESA-led Solar Orbiter mission over the last three years. See and hear for yourself how the number of flares and their intensity increase, a clear sign of the Sun approaching the peak of the 11-year solar cycle.

This video combines ultraviolet images of the Sun's outer atmosphere (the corona, yellow) taken by Solar Orbiter's Extreme Ultraviolet Imager (EUI) instrument, with the size and locations of solar flares (blue circles) as recorded by the Spectrometer/Telescope for Imaging X-rays (STIX) instrument. The accompanying audio is a sonification based on the detected flares and the spacecraft's distance to the Sun.

Solar Orbiter moves on an elliptical path around the Sun, making a close approach to our star every six months. We can see this in the video from the spacecraft's perspective, with the Sun moving closer and farther over the course of each year. In the sonification, this is represented by the low background humming that loudens as the Sun gets closer and becomes quieter as it moves further away. (There are some abrupt shifts in distance visible in the video, as it skips over dates where one or both instruments were inactive or collecting a different type of data.)

The blue circles represent solar flares: bursts of high-energy radiation of which STIX detects the X-rays. Flares are sent out by the Sun when energy stored in 'twisted' magnetic fields (usually above sunspots) is suddenly released. The size of each circle indicates how strong the flare is, with stronger flares sending out more X-rays. We can hear the flares in the metallic clinks in the sonification, where the sharpness of the sound corresponds to how energetic the solar flare is.

Many thanks to Klaus Nielsen (DTU Space / Maple Pools) for making the sonification in this video. If you would like to hear more sonifications and music by this artist, please visit: https://linktr.ee/maplepools

Solar Orbiter is a space mission of international collaboration between ESA and NASA, operated by ESA.

Robotics lab at ESTEC

A few weeks before the inauguration of the LUNA facility, the robotics team in their laboratory at ESTEC, ESA's technical heart in the Netherlands, practise a carefully-planned choreography to demonstrate the capabilities of their cutting-edge machines, Interact and Spot. Known as the Moon on Earth, the LUNA facility was unveiled in September 2024 near the European Astronaut Centre (EAC) in Cologne, Germany. This groundbreaking simulated lunar environment is designed to prepare for humanity's return to the Moon. To celebrate its opening, ESA astronaut Matthias Maurer collaborated with the robotics team to showcase the potential of human-robot teamwork for space exploration.

Find out more about how the team prepared the show: https://blogs.esa.int/exploration/making-a-moon-robot-show-on-earth

Robot rock at LUNA

Also known as the Moon on Earth, the LUNA facility near the European Astronaut Centre (EAC) in Cologne, Germany, was unveiled in September 2024, a simulated lunar environment that prepares our return to the Moon. To celebrate, ESA astronaut Matthias Maurer joined forces with our robotics experts to showcase their cutting-edge machines Interact and Spot, and the potential of human-robot teamwork for space exploration.

Here, the human-robot interaction team practise their fully-autonomous choreography just a few hours before the event.

Find out more about how the team prepared the show: https://blogs.esa.int/exploration/making-a-moon-robot-show-on-earth

ESA 2025: A fifty-years legacy of building the future

In 1975, 10 European countries came together with a vision to collaborate on key space activities: science and astronomy, launch capabilities and space applications: the European Space Agency, ESA, was born.

In 2025, we mark half a century of joint European achievement – filled with firsts and breakthroughs in science, exploration and technology, and the space infrastructure and economy that power Europe today.

During the past five decades ESA has grown, developing ever bolder and bigger projects and adding more Member States, with Slovenia joining as the latest full Member State in January.

We’ll also celebrate the 50thanniversary of ESA’s Estrack network, 30 years of satellite navigation in Europe and 20 years since ESA launched the first demonstration satellite Giove-A which laid the foundation for the EU’s own satnav constellation Galileo. Other notable celebrations are the 20th anniversary of ESA’s Business Incubation Centres, or BICs, and the 30th year in space for SOHO, the joint ESA and NASA Solar and Heliospheric Observatory.

Sadly though, 2025 will mean end of science operations for Integral and Gaia. Integral, ESA's gamma-ray observatory has exotic objects in space since 2002 and Gaia concludes a decade of mapping the stars. But as some space telescopes retire, another one provides its first full data release. Launched in 2023, we expect Euclid’s data release early in the new year.

Launch-wise, we’re looking forward to Copernicus Sentinel-4 and -5 (Sentinel-4 will fly on an MTG-sounder satellite and Sentinel-5 on the MetOp-SG-A1 satellite), Copernicus Sentinel-1D, Sentinel-6B and Biomass. We’ll also launch the SMILE mission, or Solar wind Magnetosphere Ionosphere Link Explorer, a joint mission with the Chinese academy of science.

The most powerful version of Europe’s new heavy-lift rocket, Ariane 6, is set to fly operationally for the first time in 2025. With several European commercial launcher companies planning to conduct their first orbital launches in 2025 too, ESA is kicking off the European Launcher Challenge to support the further development of European space transportation industry.

In human spaceflight, Polish ESA project astronaut Sławosz Uznański will fly to the ISS on the commercial Axiom-4 mission. Artemis II will be launched with the second European Service Module, on the first crewed mission around the Moon since 1972.

The year that ESA looks back on a half century of European achievement will also be one of key decisions on our future. At the Ministerial Council towards the end of 2025, our Member States will convene to ensure that Europe's crucial needs, ambitions and the dreams that unite us in space become reality.

So, in 2025, we’ll celebrate the legacy of those who came before but also help establish a foundation for the next 50 years. Join us as we look forward to a year that honours ESA’s legacy and promises new milestones in space.

Cosmic jingles: listen to Euclid’s image of M78

An ethereal dance of misty clouds of interstellar dust with a myriad of distant stars and galaxies speckled like paint drops over a black canvas. This is a sonification of a breathtaking image taken by ESA's Euclid space telescope of the young star-forming region Messier 78.

The sonification offers a different representation of the data collected by Euclid, and lets us explore the stellar nurseries in M78 through sound. Close your eyes and listen to let the cosmic image be drawn by your mind’s eye, or watch as the traceback line in this video follows the sounds to colour the image from left to right.

The twinkling sounds of various pitches and volumes represent the galaxies and stars in the frame. The pitch of the sound points towards where we see the dot of light in the image. Higher pitches tell us that a star or galaxy appears further at the top in the image along the traceback line.

The brightness of these objects in and around M78 are represented by the volume of the twinkles. Whenever we hear a particularly loud clink, the star or galaxy that Euclid observed appears particularly bright in the image.

Underlying these jingling sounds, we can hear a steady undertone, made up of two chords which represent different regions in Messier 78. This sound intensifies as the traceback line approaches first the brightest, and later the densest regions in the nebula.

The first two deeper crescendos in this undertone indicate two patches in the image where the most intense colour is blue/purple. These appear as two ‘cavities’ in M78, where newly forming stars carve out and illuminate the dust and gas in which they were born.

The chords intensify a third time at a slightly higher pitch corresponding to the red-orange colours in the image, as the sound draws over the densest star-forming region of the frame. This stellar nursery is hidden by a layer of dust and gas that is so thick that it obscures almost all the light of the young stars within it.

As the sound traces over the entire Euclid image, these different tones together form a cosmic symphony that represents the image of Messier 78, and the stars and galaxies that lie behind and within it. You can read more about this image that was first revealed to the eyes of the world earlier this year here.

Page 1 de 3

Revenir