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Galileo L14 launch highlights

On 17 December, two new Galileo satellites lifted off from Europe’s Spaceport in French Guiana aboard an Ariane 6 rocket. This marked the 14th launch for Europe’s satellite navigation operational satellite programme, reinforcing Europe’s resilience and autonomy.

The European Space Agency (ESA) is responsible for carrying out the Galileo launch with Arianespace on behalf of the European Commission. The Galileo satellites were manufactured by OHB, under contract with ESA. Once in orbit, the EU Agency for the Space Programme (EUSPA) will bring the satellites into service and oversee their operation.

The flight, designated VA266, was the first launch of Galileo satellites on Europe’s newest heavy-lift launcher Ariane 6.

Follow the launch campaign.

Proba-3 fills the solar observation gap

The ASPIICS coronagraph aboard ESA’s formation-flying Proba-3 mission is able to observe the Sun’s corona in the gap between the fields of view of solar extreme-ultraviolet imagers and conventional coronagraphs, making it uniquely suited for studies of the inner solar corona.

This time-lapse animation captures a coronal mass ejection (CME) in the top right, combining observations made on 16 July over a period of one hour and a half by three different European instruments aboard different missions: the Sun’s disc and low corona (artificially coloured in yellow), as captured by an extreme-ultraviolet telescope (SWAP) aboard Proba-2; the outer corona (in red) observed by the LASCO C2 coronagraph aboard SOHO; and the inner corona (in green), imaged in detail by Proba-3’s ASPIICS coronagraph, filling the gap.

Andrei Zhukov from the Royal Observatory of Belgium, Principal Investigator for the ASPIICS coronagraph on Proba-3, comments: “You can see the CME starting at the edge of the solar disc, captured by Proba-2. Then it extends into the inner coronal region, which is now visible to us thanks to Proba-3, before reaching the high corona observed by SOHO. The continuity with which we can now observe the CME structure extend outwards from the Sun is incredible.”

The flight, designated VA266, was the first launch of Galileo satellites on Europe’s newest heavy-lift launcher Ariane 6.

Follow the launch campaign.

Ariane 6 for Galileo

Europe’s newest rocket Ariane 6 was made for Galileo.

This video shows a launch of two Galileo navigation satellites on an Ariane 6 rocket.

Ariane and Galileo have a long history together, with 12 satellites launched aboard three Ariane 5 rockets. Ariane 6, the new generation of Europe’s heavy-lift launcher, is taking over as the reference for launching Galileo satellites.

The world’s most precise satellite navigation system, Galileo serves billions of daily users from medium Earth orbit 23 222 km above Earth’s surface. Galileo is also making a difference across key sectors, including rail, maritime, agriculture, financial timing services and rescue operations.

On behalf of the European Commission, the European Space Agency (ESA) is responsible for the design, development and qualification of Galileo's space and ground systems as well as procuring the launches. The European Union Agency for the Space Programme (EUSPA) operates the satellites from the Early Orbit Phase of their operational mission until their disposal at the end of life.

Ariane 6 is a key element of ESA’s efforts to ensure autonomous access to space for Europe’s citizens. Its modular and versatile design allows it to launch all types of missions, from low-Earth orbit to deep space.

Ariane 6 is designed and built by ArianeGroup. It has three main components each working in stages to escape Earth’s gravity and take satellites to orbit: two or four boosters, and a core and upper stage. For this launch, the rocket will be in its two-booster configuration. 

The core stage and the boosters provide thrust for the first phase of flight. The core stage is powered by the Vulcain 2.1 engine (fuelled by liquid oxygen and hydrogen), with the main thrust at liftoff provided by the P120C boosters. 

The upper stage is powered by the reignitable Vinci engine, also fuelled by liquid oxygen and hydrogen. The upper stage will fire two times to reach the required orbit for this mission. 

After separation of the Galileo satellites, the Ariane 6 upper stage moves to a stable graveyard orbit far away from operational satellites.

ESA’s InCubed programme

InCubed is the European Space Agency’s Earth observation programme for ‘Investing in Industrial Innovation’. It aims to foster commercial innovation, boost the European Earth observation economy and reinforce relationships with the private investor community. It achieves this by working with entrepreneurs to develop innovative and commercially viable products and services that generate or exploit the value of Earth observation imagery and datasets. As a commercially driven programme run by ESA Φ-lab, InCubed exemplifies ESA’s role as a partner to industry and a supporter of business and technology innovation.

ESA highlights 2025

2025 was a landmark year for Europe in space. From celebrating 50 years of ESA to new missions, scientific breakthroughs, the year reaffirmed Europe’s leadership in science, exploration, climate action and innovation.

Pablo Álvarez Fernández | Spacesuits, Survival & Spacewalk Dreams | ESA Explores #18

Step inside astronaut training with ESA astronaut Pablo Álvarez Fernández as he shares his training journey from Cologne in Germany to Houston in the US. Discover what it’s like to wear a 145 kg spacesuit underwater, train for emergencies like fires and ammonia leaks and prepare for the ultimate astronaut dream: a spacewalk. Plus, Pablo talks about life in Houston, teamwork under pressure and what’s next on his path to the stars.

This interview was recorded in December 2024.

You can listen to this episode on all major podcast platforms.

Keep exploring with ESA Explores!

Draco: atmospheric reentry from the inside

Over the nearly 70 years of spaceflight, about 10 000 intact satellites and rocket bodies have reentered the atmosphere with many more to follow. Yet for such a ubiquitous event, we still lack a clear view on what actually happens to a satellite during its fiery last moments.

ESA is preparing the Destructive Reentry Assessment Container Object (Draco) mission that will collect unique measurements during an actual reentry and breakup of a satellite from the inside.

Just hours after its launch, planned in 2027, a capsule especially designed to survive the satellite’s destruction will transmit the collected telemetry shortly after.

As part of ESA’s Zero Debris approach, new ESA missions will be designed for safe operations and disposal to stop the creation of new debris by 2030. New satellites should be ‘designed for demise’: built to disintegrate safely, cleanly and completely when its mission ends.

At the same time, we also need to better understand the effect of satellite reentries on the atmosphere. Yet even with testing on the ground, crucial input based on real-life data of how the break-up process works is missing – for now.

The data from ESA’s Draco mission will improve reentry modelling and design-for-demise technologies, maintaining European leadership in sustainable spaceflight.

Click here for the subtitled version of the video.

The journey of Juice – episode 2

ESA’s Jupiter Icy Moons Explorer (Juice) is on an epic eight-year journey to Jupiter. It left Earth in April 2023 and is due to arrive at the gas giant in 2031.

2025 has been another big year for Juice. It made its closest approach to the Sun and flew close by Venus for a gravity boost to help it on its way. This second episode of ‘The journey of Juice’ takes us on a journey of our own, discovering what Juice – and the humans behind it – have experienced this year.

In a clean room at ESA’s technical centre, thermal engineer Romain Peyrou-Lauge shows us the technologies that protect Juice from the intense heat of the Sun during this period.

In Uppsala, Sweden, scientists get together for a ‘science working team’ meeting to discuss the scientific aspects of the mission. Juice Project Scientist Olivier Witasse talks about how important it is to continue working as a team to prepare for Juice’s precious time spent collecting data at Jupiter.

The video culminates with operations engineer Marc Costa taking us to the Cebreros station in Madrid for the Venus flyby. There we meet deputy station manager Jorge Fauste, Juice intern Charlotte Bergot and Juice Mission Manager Nicolas Altobelli.

This series follows on from ‘The making of Juice’ series, which covered the planning, testing and launch of this once-in-a-generation mission.

Galileo pre-launch media briefing

Watch the replay of the media briefing held ahead of the 14th operational launch of the Galileo programme. The briefing covers the mission details for the launch of two Galileo satellites, which are set to lift off on 17 December aboard Ariane 6 from Europe’s Spaceport in French Guiana.

ESA Council meeting at Ministerial level 2025 - press conference

Watch the replay of the press conference held at the conclusion of ESA's Ministerial Council 2025 (CM25) in Bremen, Germany. ESA Director General Josef Aschbacher, as well as the hosting minister and the CM25 chair, present the outcome of this high-level meeting that took place on 26 and 27 November.

Download the press conference slides