Newsletter
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Newsletter
Easy to Read
For German
research institutions
Newsletter
Easy to Read
For German
research institutions
Newsletter
Easy to Read
For German
research institutions
Newsletter
Easy to Read
For German
research institutions
Newsletter
Easy to Read
For German
research institutions

Research in focus: Pioneering the future of space in Germany

Dust swirls as a rover traverses gray basalt in the glare of a bright light. You could think it was on the moon. But this scene is not playing out in space, but rather in the West German city of Cologne. In the LUNA hall of the German Aerospace Center (DLR), Astronauts train for future missions to Earth's satellite. This globally unique facility tests astronautical and robotic missions under near-realistic conditions, using technology from Germany.

LUNA is just one of many projects that demonstrate how strong Germany's position is in space travel. German engineers are developing propulsion systems that will make future moon missions possible, as well as satellites that detect forest fires, enable precise navigation, and monitor the global climate. Optical systems and cameras from Germany provide the ESA Mars Express space probe with razor-sharp 3D images of distant planets.  

Space travel is international, and researchers from all over the world are invited to help shape the path to space in Germany. 

An Astronaut in a space suit practices a lunar mission with a robot in the LUNA facility in Cologne.

DLR/ESA

LUNA mission simulation – human-robot collaboration

At a glance: Germany's strengths in space travel

Infographic explaining the structure of the LUNA space research and training facility in Cologne.

ESA

Moon mission on Earth: LUNA

Together to the moon: Germany's role in international space travel

Space travel requires cooperation, and Germany plays a key role here. This can be seen not only in the new LUNA lunar training facility in Cologne, which is operated jointly by DLR and ESA, but also in many major international projects. Germany is playing a key role in the construction of the new ARIANE-6 European launch vehicle. It is also heavily involved in the ESA program, which is making a European contribution to the return to the moon with the Argonaut lunar lander.

In the northern German city of Bremen, the European Airbus Group is developing and building the European Service Module to propel the Orion spacecraft in the spectacular Artemis manned US lunar mission. Germany is also committed to the successor to the International Space Station (ISS). The Airbus Group is collaborating with US startup Voyager Space to develop and build the new Starlab commercial station at its site in Bremen, among other locations. 

Aerial view of the satellite ground station operated by the German Space Operations Center (GSOC) under DLR. The satellite ground station is located in a large field surrounded by a forest.

DLR (CC BY-NC-ND 3.0)

Aerial view of the Weilheim facility

Germany's infrastructure for space travel and space research

DLR's German Space Operations Center (GSOC) coordinates and controls national and international missions, from satellite flights to astronautical projects. DLR itself is one of Europe's leading research institutions: It develops and operates its own satellites, maintains large-scale state-of-the-art research facilities, and has the largest civilian fleet of research aircraft in Europe. DLR is also involved in many international projects and missions to explore Earth, the solar system, and space. Germany is a key partner for global scientific cooperation in space thanks to its capabilities. Its cutting-edge expertise continues to strengthen international missions and drive innovation across the sector.

GOOD TO KNOW

The German Space Operations Center

Aerial view of the satellite ground station operated by the German Space Operations Center (GSOC) under DLR. Several satellite antennas in Weilheim are used for diverse missions. Open-house events give visitors the opportunity to see the facility up close and learn about its functions. 

A digital graphic depicts the orbit of the two satellites TanDEM-X and TerraSAR-X as they circle the Earth in space.

DLR (CC BY-NC-ND 3.0)

TanDEM-X and TerraSAR-X orbit in formation

Germany's satellites explore the world

Ensuring that planes land safely, that ships find their routes, that banks carry out their transactions, and that we find our way through unfamiliar cities, all require help from above. Satellite networks are an indispensable part of the infrastructure of modern societies. Not only do they support us in our everyday lives, they also enable activities such as climate research and weather forecasts, and provide data on changes in the oceans or the melting of glaciers.

Germany has had satellites in space since 1969, currently more than 80. At an altitude of roughly 500 kilometers, TerraSAR-X and TanDEM-X orbit the Earth and scan its surface with high precision using radar equipment. These satellites have already mapped the entire surface of the Earth several times and, among other things, demonstrated the extent of climate change: For example, the highly accurate radar data demonstrated losses in the ice thickness of the Great Aletsch Glacier in Switzerland of up to 50 meters over just a few years.  

GOOD TO KNOW

TanDEM-X and TerraSAR-X

Flying in close formation, TanDEM-X and TerraSAR-X work together to generate an extremely accurate global elevation model. 

Innovation in space: Germany's national satellite, Heinrich Hertz

In 2023, the national satellite, Heinrich Hertz, was placed in geostationary orbit. Heinrich Hertz is a research satellite: Researchers from academia and industry can use it to test new communications services and technologies in space. Small satellites such as Heinrich Hertz open up new opportunities for research and business. Multiple German microlauncher companies are currently developing low-cost launch vehicles to send these small satellites into space.

Research for space security

Yet critical infrastructure also includes satellite networks, which are at risk – not only from solar storms, space debris and near-Earth asteroids. German satellites are also susceptible to sabotage and enemy attacks. This highlights the vulnerability of essential space-based services – everything from communication and navigation to Earth observation and timing. This is why the German government unveiled its first space security strategy in late 2025, one of the aims being to strengthen space research. In collaboration with institutions including DLR and Fraunhofer-Gesellschaft, the various risks and threats in space will be studied, as will possible ways and means of defending against them. The program encompasses research projects on space-based contributions to territorial ballistic missile defense and on hypersonic technology in the high atmosphere.  

An older man in a suit is holding a speech alongside a middle-aged woman in a pink blazer.

picture alliance / dts-Agentur 

Press statement on space security strategy: Federal Minister for Research, Technology, and Space Dorothee Bär and Federal Minister of Defense Boris Pistorius

German investment into space security

Germany plans to invest 35 billion euros in space security by 2030. The money will be spent on creating a resilient structure of satellite constellations, ground stations, secure launch capability and services.  Funding will also be made available for cybersecurity, radar, telescopes and “guardian satellites”, transport capacities and a German military satellite control center in the Bundeswehr’s Space Component Command.  

The Bundeswehr is already investing in the development of hypersonic spaceplanes. It has contracted Bremen start-up Polaris-Raumflugzeuge with developing a two-stage and fully reusable hypersonic research vehicle capable of horizontal take-off. 

Further information:

Following extensive consultation with research, industry, civil society, and other ministries, a new national space strategy of the federal government (in German) was introduced in 2023.  

The Space Innovation Hub of the German Space Agency at DLR is a platform for startups, established companies, investors, public institutions, and science (in German).  

The Research in Germany platform's From Space to Life campaign provides insight into space research and the work of research scientists in Germany. 

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