Astronauts on the International Space Station do a full circle of Earth every 90 minutes and experience 16 sunsets and sunrises every day.
With this unearthly routine, astronauts can struggle to find a natural daily rhythm in space.
The Space Station follows Greenwich Mean Time (GMT), which helps keep a consistent schedule, along with regular wake-up and bedtime routines.
During his Huginn mission, our astronaut Andreas Mogensen will run two experiments focusing on sleeping in space with real world applications: Circadian Light and Sleep in Orbit.
📹 ESA – European Space Agency 📸 SAGA Space Architects
1. Mars has two moons, Phobos and Deimos. They are both too light for gravity to make them spherical.
2. It has the highest volcano in the Solar System, the Olympus Mons. It rises 25 kilometres above the surrounding plain: Mount Everest is only one third as high.
3. The air is 100 times thinner than on Earth, and mostly made up of carbon dioxide. Human explorers will have to wear oxygen masks and special suits every time they step outside their sealed homes.
4. Like Earth, the Red Planet has two large ice caps at its north and south poles.
ESA astronaut Andreas Mogensen became commander of the International Space Station (ISS) on September 26, 2023, in a traditional ceremony in which the departing commander, Sergey Prokopyev, handed over the symbolic key of the Space Station. Mogensen is the sixth European to take on the role of ISS commander.
Mogensen will serve as commander for the rest of his Huginn mission until early 2024. During his command, he will be responsible for overseeing the crew’s activities and ensuring the safety and operation of the Space Station.
Credits: ESA/NASA
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ESA astronaut Andreas Mogensen has begun his Huginn mission, turning the International Space Station into his home and workplace. After piloting on Crew Dragon Endurance as the first non-US pilot, Andreas has started performing European experiments and technology demonstrations with many more to come throughout the mission.
Credits: ESA – European Space Agency
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Did you know, the Northern lights or Aurora Borealis are created when the mythical Finnish ‘Firefox’ runs so quickly across the snow that its tail causes sparks to fly into the night sky? At least, that’s one of the stories that has been told in Finland about this beautiful phenomenon. Another that we love comes from the Sámi people of Finnish Lapland (among others), who describe them as plumes of water ejected by whales.
Today’s scientific explanation for the origin of the Aurora wasn’t thought up until the 20th Century, by the Norwegian scientist Kristian Birkeland. Charged particles, electrons and protons, are constantly emitted by the Sun, making up the solar wind. This wind slams into Earth’s ionosphere – sometimes sped up to vast speeds by solar storms – and the charged particles are deflected towards the poles by the magnetosphere.
Molecules in our atmosphere then absorb energy from these charged particles from the Sun, and re-release it in their own unique set of colours. Oxygen produces green, but at high altitudes can create red, nitrogen creates blues, and colours can overlap creating purple. Waves, twists and streams are caused by variations in Earth’s magnetic fields. This striking video shows the Aurora over Kiruna, the northernmost city in Sweden. It’s composed of images taken by the Kiruna all-sky camera every minute for about ten hours over 18-19 September 2023.
The all-sky auroral camera is operated by the Kiruna Atmospheric and Geophysical Observatory (KAGO) within the Swedish Institute of Space Physics (IRF), and data from here is provided as part of ESA’s network of space weather services within the Agency’s Space Safety Programme. A sequence of multiple coronal mass ejections – large, sudden ejections of plasma and magnetic field from the Sun – recently struck Earth, and we are still recovering from the passage of the last of them. The fastest was travelling at around 700 km/s, which is considered a small event.
Solar storms are causing an increase in geomagnetic activity; temporary disturbances in Earth’s magnetosphere, which has led to increased light shows at Earth’s poles.
Credits: All-sky camera, Kiruna Atmospheric and Geophysical Observatory (KAGO) within the Swedish Institute of Space Physics (IRF). Data provided as part of ESA’s Space Weather Service Network.
Coronal Mass Ejections or CMEs, are an eruption of around a billion tonnes of particles that comes from the solar atmosphere, the corona, and travels through the solar system. CMEs are an important part of ‘space weather’. The particles spark aurorae on planets with atmospheres, and can cause malfunctions in some technology. They can also be harmful to unprotected astronauts. So it is important to understand CMEs, and be able to track their progress.
Credits: ESA – European Space Agency
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Artemis in Europe: the structure and radiators for the European Service Modules that fly NASA’s Orion spacecraft to the Moon are built in Turin, Italy.
Thales Alenia Space produces the structure that acts like a chassis on a car providing the solid foundations for all other elements to be attached to and also absorbs the forces that the Artemis spacecraft will endure during launch into Earth orbit and onto the Moon.
Technicians assemble the primary structure that is made from a core of Composite Fibre Reinforced Polymer sandwich panels and aluminium alloy elements for the secondary structures. This technology keeps the European Service Module light enough to fly farther and longer but strong enough to keep its shape.
Thales Alenia Space also supplies the radiators for the European Service Modules that consist of six elements forming two independent systems. Like a car’s radiator system the European Service Module radiators are designed to expel excess heat and keep the computers and other components inside from overheating.
The structures are trucked from Turin to Bremen, Germany, where the rest of the hardware that makes a spacecraft can be installed. The first step in their voyage to the Moon.
Credits: ESA – European Space Agency
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On 5 September 2023, teams from France’s space agency CNES and Arianegroup under the lead of ESA carried out a complete Ariane 6 launch sequence on its launch pad at Europe’s spaceport in French Guiana. The test ended with a hot-fire of the launcher’s core stage and startup of the Vulcain 2.1 engine.
This is a key step in the test campaign. It follows from initial integration of the Ariane 6 launcher on its launch pad, electrical and fluid system tests and the first launch sequence test run on 18 July 2023.
This test involved a launch sequence and final countdown representative of a launch, including removal of the Ariane 6 mobile gantry and filling the launcher’s upper and core stage tanks with liquid hydrogen and liquid oxygen. The test ended with the ignition and the startup of the core stage’s Vulcain 2.1 engine, followed by four seconds of firing.
The next milestone is to complete a core stage long hot-fire test, where the Vulcain 2.1 engine will operate for about 8 minutes.
Ariane 6 is an all-new design, created to succeed Ariane 5 as Europe’s heavy-lift launch system. With Ariane 6’s upper stage and its reignitable Vinci engine, Europe’s launch capability will be tailored to the needs of multiple payloads, for example to orbit satellite constellations. This autonomous capability to reach Earth orbit and deep space supports Europe’s navigation, Earth observation, scientific and security programmes. Ongoing development of Europe’s space transportation capabilities is made possible by the sustained dedication of thousands of talented people working in ESA’s 22 Member States.
www.esa.int/ariane
Credits: ESA/ARIANEGROUP/CNES – Optique vidéo du CSG
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Explore the mysteries behind the Earth-Moon system’s origin with these four intriguing theories. 🌍🌕 Which one do you think holds the key to our celestial companion’s creation?
Space exploration presents unique health challenges for astronauts due to lack of gravity, isolation, and radiation exposure. ESA’s SciSpacE activities aim to comprehend these effects and their implications for human well-being during extended missions.
ESA collaborates with researchers to conduct experiments in microgravity and analogue environments, shedding light on the consequences of space stressors. One critical concern is muscle and bone atrophy. Despite daily exercise routines, astronauts face deterioration. ESA is investigating electrical stimulation as a potential countermeasure, with tests planned on board the International Space Station.
The “Muscle Stimulation” experiment is a centrepiece of this research. By applying controlled electric currents to leg muscles, the study aims to enhance muscle mass, strength, and recovery. Complementary assessments, including MRI scans, microcirculation analysis, and blood samples, will provide a comprehensive understanding of the efficacy.
Addressing these challenges could yield benefits on Earth too. The insights gained could translate to better healthcare for diverse populations, from the elderly to clinical patients and athletes.
ESA’s dedication to advancing space exploration while safeguarding astronauts’ physical health underscores its commitment to a sustainable and thriving space programme. Through research and innovative solutions, humanity edges closer to conquering the challenges of extended spaceflight and improving life on our home planet.
Credits: ESA – European Space Agency
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Hera is complete. ESA’s asteroid mission for planetary defence was built and prepared in two halves, but now, through a painstaking operation, they have been mated together to make a single spacecraft, ready for full-scale testing of its readiness for space.
The mating took place at OHB Bremen in Germany, with Hera’s Core Module raised more than 3 m above its Propulsion Module then gradually and carefully slotted into place, over a three-hour period. The modules had been placed in cages to ensure their correct alignment relative to each other down to a few tenths of a millimetre.
Hera’s Propulsion Module incorporates its propellant tanks – housed within a central titanium cylinder, the ‘backbone’ of the spacecraft – along with piping and thrusters, which will have the job of hauling the mission across deep space for more than two years, then to manoeuvre around the Dimorphos and Didymos asteroids.
Meanwhile Hera’s Core Module can be thought of as the brains of the mission, hosting its onboard computer, mission systems and instruments.
Once the tip of the Propulsion Module cylinder met the top deck of the Core Module the mating was complete. Then an initial test bolt was inserted to check the alignment was entirely correct in advance of the two modules being fully bolted together.
The combined Hera spacecraft is scheduled to go through a test campaign to assess its readiness for spaceflight, along with the two CubeSats it will carry aboard, in preparation for its October 2024 lift-off.
Credits: ESA – European Space Agency Footage: ESA / OHB
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This image was captured by NIRCam, Webb’s primary near-infrared camera, and contains the lensing galaxy cluster SDSS J1226+2149. It lies at a distance of around 6.3 billion light-years from Earth, in the constellation Coma Berenices. By combining Webb’s sensitivity with the magnifying effect of gravitational lensing, astronomers were able to use this gravitational lens to explore the earliest stages of star formation in distant galaxies. To do so, they relied on earlier studies by the NASA/ESA Hubble Space Telescope, which provided the ‘prescription’ for this gravitational lens.
Credit: ESA/Webb, NASA & CSA, J. Rigby Music: Stellardrone – Twilight
A solar eruption detected simultaneously at Earth, the Moon and Mars emphasises the need to prepare human exploration missions for the dangers of space radiation.
During Artemis I the European Service Module (ESM) surpassed expectations. Now, as we set our sights on Artemis II, the European Service Module is ready to once again serve as Orion’s primary power and propulsion component and keep the spacecraft at the right temperature and on course. And this time, with real astronauts on board.
ESM-2 stands as a testament to ESA’s contributions to NASA’s Orion spacecraft and the Artemis programme, ensuring the crew will have the essentials – from electricity to temperature control – in the vastness of space.
Next up, ESM-2 will be connected with the crew module to create the Artemis II vehicle. It will then be thoroughly tested before launch scheduled for next year.
ESA is committed to send astronauts beyond low-Earth orbit and ultimately to the surface of the Moon and beyond. ESM is a key contribution to this joint international endeavour.
This video features interviews with: – Philippe Berthe, ESA’s European Service Module Project Coordination manager – Kai Bergemann, Airbus deputy programme manager for Orion and the European Service Module – Jeremy Hansen, Canadian Space Agency Artemis II astronaut – Debbie Korth, NASA deputy programme manager for Orion
Credits: ESA – European Space Agency 📸 NASA/Kim Shiflett
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
According to the @worldmetorg, July 2023 is likely to have been the hottest month on record. While much of Europe, North America and Asia suffered the immediate consequences of these brutal temperatures, extreme events are also hitting hard far away in the icy reaches of Antarctica. In a paper published today, scientists highlight Antarctica’s vulnerability to extremes and the role that satellites play in monitoring this remote region.
In the vast expanse of space, astronauts face a unique challenge – the need to share spacesuits during prolonged spacewalks. These suits, including their inner linings that come into direct contact with the astronauts’ skin, tend to accumulate bodily fluids over time. Drawing a rather relatable analogy, it’s akin to sharing underwear in space!
However, the practicality of washing these spacesuit interiors on lunar surfaces or beyond presents a significant hurdle. To counter this, a dedicated group of researchers is delving into innovative strategies to curb the growth of potentially harmful microbes within the inner layers of these suits.
Here’s where the solution gets intriguing: the world of microbiology offers a fascinating approach. Certain types of microbes possess ‘secondary metabolites’ that allow them to combat other microbes. These compounds are not only diverse in colour but also possess antibiotic properties. The ingenious idea involves integrating these microbial warriors into the very fabric of the spacesuit’s inner layer.
This pioneering research isn’t confined solely to the realm of spacesuits; its implications extend far beyond. The outcomes hold the potential to revolutionise the field of antimicrobial treatments and smart textile technologies right here on Earth. As we gear up for lunar expeditions and beyond, these microbial-fighting fabrics could play a pivotal role in ensuring astronauts’ health and well-being while opening new frontiers of innovation back home.
ESA’s Euclid mission will create a 3D-map of the Universe that scientists will use to measure the properties of dark energy and dark matter and uncover the nature of these mysterious components. The map will contain a vast amount of data, it will cover more than a third of the sky and its third dimension will represent time spanning 10 billion years of cosmic history.
But dealing with the huge and detailed set of novel data that Euclid observations will produce is not an easy task. To prepare for this, scientists in the Euclid Consortium have developed one of the most accurate and comprehensive computer simulations of the large-scale structure of the Universe ever produced. They named this the Euclid Flagship simulation.
Running on large banks of advanced processors, computer simulations provide a unique laboratory to model the formation and evolution of large-scale structures in the Universe, such as galaxies, galaxy clusters, and the filamentary cosmic web they form. These state-of-the-art computational techniques allow astrophysicists to trace the motion and behavior of an extremely large number of dark-matter particles over cosmological volumes under the influence of their own gravitational pull. They replicate how and where galaxies form and grow, and are used to predict their distribution across the celestial sphere.
Explore the Euclid Flagship simulation in this video and get a sneak preview of the structure of the dark Universe, as we currently model it. New insights will be brought to you by the Euclid mission in the coming years.
Credits: ESA/Euclid Consortium/Cacao Cinema The authors kindly acknowledge the use of the Splotch package: http://www.mpa-garching.mpg.de/~kdolag/Splotch
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
The fraction of light that an object reflects is called its ‘albedo’. Most planets have a low albedo, either because they have an atmosphere that absorbs a lot of light, or because their surface is dark or rough. Earth, for example, only reflects around 30% of incoming sunlight. Exceptions tend to be frozen ice-worlds, or planets like Venus which have a cloud layer (reflecting 75% of the Sun’s light in Venus’ case).
LTT9779 b’s 80% of albedo came as a surprise because the planet’s side facing its star is estimated to be around 2000 °C. Any temperature above 100 °C is too hot for clouds of water to form, but the temperature of this planet’s atmosphere should even be too hot for clouds made of metal or glass.
LTT9779 b can form metallic clouds despite being so hot because the atmosphere is oversaturated with silicate and metal vapours.
📹 ESA – European Space Agency 🖥️ Ricardo Ramírez Reyes/Universidad de Chile
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
This video takes the viewer on a journey through space to the Rho Ophiuchi cloud complex.
From our cosmic backyard in the Solar System to distant galaxies near the dawn of time, the NASA/ESA/CSA James Webb Space Telescope has delivered on its promise of revealing the Universe like never before in its first year of science operations. To celebrate the completion of a successful first year, a new Webb image has been released of a small star-forming region in the Rho Ophiuchi cloud complex. While the region is relatively quiet, its proximity at 390 light-years makes for a highly detailed close-up, with no foreground stars in the intervening space.
Credits: ESA/Webb, NASA, ESA, CSA, JPL-Caltech/Harvard-Smithsonian CfA, DSS2, N. Bartmann (ESA/Webb), E. Slawik, N. Risinger, D. de Martin, M. Zamani (ESA/Webb), K. Pontoppidan (STScI), A. Pagan (STScI)
Music: Tonelabs – The Red North
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
ESA’s Earth Explorer Aeolus satellite was launched in August 2018 on a trailblazing mission to show how profiling Earth’s winds from space can improve weather forecasts and climate models. Data from its pioneering wind-mapping laser, which at one stage was thought a nigh-impossible feat of engineering, has been used by leading weather forecasting services throughout Europe.
Marking the end of Aeolus’ remarkable mission, ESA worked with composer Jamie Perera to create a woodwind piece from data that spans the lifetime of the satellite’s life in orbit around Earth.
In the resulting orchestral piece, every second is a day in the life of Aeolus, with data represented by the following instruments:
Piccolo: Rayleigh Top Altitude (the tops of clouds) Flute: Rayleigh Observation Type (density of clouds) Oboe: Rayleigh Reference Temperature (wind temperature) Clarinet 1: Rayleigh Wind Velocity (wind velocity) Clarinet 2: Rayleigh Wind Reference Pressure (air pressure) Bassoon/Bass Clarinet: Rayleigh Bottom Altitude (Earth’s surface) Ambient Synth: Validity Flag 0 (Aeolus downtime)
You can also hear landmark events such as volcanic eruptions represented by drums, hurricanes represented by wind sound effects, and the Coronavirus pandemic represented by a pulsing synth.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
If you think its only possible be held in orbit around a central body of mass – say a planet or a star – you’d be wrong. It is in fact possible to orbit around an invisible point, an oasis of forces, infinitesimal in size. ESA’s Euclid mission was launched on 1 July 2023 to uncover the secrets of the dark universe. Its destination? Like many astronomy missions before it, Lagrange point 2.
‘L2’ is an ideal location for astronomy missions because they can keep the Sun, Earth and Moon behind them at all times, so they don’t interfere with observations, while at the same time getting a clear view of deep space and pointing an antenna back to Earth to remain in close communication. The permanent sunlight on Euclid at L2 also keeps the telescope thermally stable, allowing for the extremely high stability required for the instrument’s long exposure observations. Euclid’s orbit around Lagrange point 2 is big. In terms of distance, the ‘radius’ of Euclid’s orbit varies from about 400 000 kilometres at its closest to the centre, and up to 800 000 kilometres at its furthest. By the time Euclid has completed one full revolution around L2, the Moon will have circled the Earth six times.
The reason for this large orbit is that it is almost free, in terms of fuel, to get there. The better the accuracy of the rocket that launches a mission into such a large halo orbit around L2, the less fuel that’s needed to perform correction manoeuvres – and Euclid only required a tiny correction manoeuvre after its near-perfect launch on a Space X Falcon 9.
This animation, created using “Gaia Sky”, shows Euclid’s path from Earth to this unique and useful position in space. Located about 1.5 million kilometres from Earth in the opposite direction from the Sun, the second Lagrange point (or Libration point) is about four times further away than our Moon.
Euclid will spend about a month getting to ‘L2’ followed by a planned six years in orbit, from where it will study the mysterious nature of dark matter and dark energy, that make up 95% of our Universe, but about which very little is known.
Credits: ESA/Gaia/DPAC, CC BY-SA 3.0 IGO
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
This video takes the viewer on a journey through space to the peculiar galaxy NGC 3256.
This distorted galaxy is the wreckage of a head-on collision between two spiral galaxies which likely occurred 500 million years ago, and it is studded with clumps of young stars which were formed as gas and dust from the two galaxies collided.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Discover the first results from Europe’s first Lightning Imager onboard the Meteosat Third Generation. The Lightning Imager can continuously detect rapid flashes of lighting in Earth’s atmosphere whether day or night from a distance of 36 000 km.
This is the first time a geostationary weather satellite has the capability to detect lightning across Europe, Africa and the surrounding waters. Each camera can capture up to 1000 images per second and will continuously observe lightning activity from space. The data will give weather forecasters greater confidence in their predictions of severe storms.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
ESA’s latest astrophysics mission, Euclid, lifted off on a Space X Falcon 9 from Cape Canaveral in Florida, USA, at 17:12 CEST on 1 July 2023.
Euclid has now started its month-long journey to Sun-Earth Lagrange point L2, located 1.5 million kilometres from Earth, in the opposite direction from the Sun.
The telescope will survey one third of the sky with unprecedented accuracy and sensitivity. By observing billions of galaxies out to 10 billion light-years, it will create the most extensive 3D-map of the Universe, with the third dimension representing time.
ESA’s Euclid mission is designed to explore the composition and evolution of the dark Universe. Euclid will chart how the Universe has expanded and how large-scale structure is distributed across space and time, revealing more about the role of gravity and the nature of dark energy and dark matter.
Four weeks after launch, Euclid will enter its orbit around L2. Once in orbit, mission controllers will start the activities to verify all functions of the spacecraft, check out the telescope and finally turn the instruments on. Following this, scientists and engineers will be engaged in an intense two-month phase of testing and calibrating Euclid’s scientific instruments, and preparing for routine observations. The telescope begins its early phase of the survey of the Universe three months after launch.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
ESA’s latest astrophysics mission, Euclid, lifted off on a Space X Falcon 9 from Cape Canaveral in Florida, USA, at 17:12 CEST on 1 July 2023.
Euclid has now started its month-long journey to Sun-Earth Lagrange point L2, located 1.5 million kilometres from Earth, in the opposite direction from the Sun.
The telescope will survey one third of the sky with unprecedented accuracy and sensitivity. By observing billions of galaxies out to 10 billion light-years, it will create the most extensive 3D-map of the Universe, with the third dimension representing time.
ESA’s Euclid mission is designed to explore the composition and evolution of the dark Universe. Euclid will chart how the Universe has expanded and how large-scale structure is distributed across space and time, revealing more about the role of gravity and the nature of dark energy and dark matter.
Four weeks after launch, Euclid will enter its orbit around L2. Once in orbit, mission controllers will start the activities to verify all functions of the spacecraft, check out the telescope and finally turn the instruments on. Following this, scientists and engineers will be engaged in an intense two-month phase of testing and calibrating Euclid’s scientific instruments, and preparing for routine observations. The telescope begins its early phase of the survey of the Universe three months after launch.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Watch a replay of the launch broadcast for ESA’s Euclid.
ESA’s Euclid mission was launched into space on a SpaceX Falcon 9 from Cape Canaveral in Florida, USA, on 1 July 2023. It is now on its way to Sun-Earth Lagrange point L2.
By observing billions of galaxies out to 10 billion light-years, the space telescope will create the most detailed 3D-map of the Universe, with time as the third dimension.
The launch broadcast programme includes live segments from the launch site and ESA’s European Spacecraft Operations Centre (ESOC) in Darmstadt, Germany.
Credits: ESA/SpaceX
00:00 – 45:35 Pre-launch programmes 45:35 – 55:00 Lift-off 55:00 – 01:27:00 Booster landing in the ocean 01:27:00 – 01:31:00 Euclid space craft separation 01:31:00 – 01:42:29 Acquisition of Signal (AOS)
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
ESA’s Euclid space telescope is nearly ready for launch. The spacecraft arrived in Florida on 30 April for final tests and checks, and now being integrated with the SpaceX Falcon 9 rocket that will carry it into space.
For the team at ESA’s European Space Operations Centre (ESOC) in Darmstadt, Germany, this means that the most intense phase of their work is about to begin. To prepare themselves, the team has simulated the launch operations, tackling issues ranging from team members falling ill to a computer mouse being taped over.
Euclid is ESA’s space telescope designed to explore the dark Universe. The mission will create the largest, most accurate 3D map of the Universe ever produced across 10 billion years of cosmic time. Euclid will explore how the Universe has expanded and how large-scale structure is distributed across space and time, revealing more about the role of gravity and the nature of dark energy and dark matter.
Euclid is targeted to launch on a SpaceX Falcon 9 rocket from Cape Canaveral in Florida, USA, at 11:11 local time / 16:11 BST / 17:11 CEST on Saturday 1 July 2023. A back-up launch date of Sunday 2 July 2023 is foreseen.
Credit: ESA – European Space Agency
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
This is ESA WebTV, ESA’s digital channel, packed with original programmes on all things space related.
Stories about space and climate change, astronauts, rovers on faraway planets, space debris, new rockets, satellite operations, exploration of our universe, live launches – you name it, we’ve got it!
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Watch Mercury appear from the shadows as the ESA/JAXA BepiColombo spacecraft sped by the planet’s night side during its 19 June 2023 close flyby, and enjoy a special flyover of geologically rich terrain.
Credits: Image: ESA/BepiColombo/MTM, CC BY-SA 3.0 IGO; Music composed by ILĀ. Shape from shading processing and animation (using Unity) by K. Wohlfarth and M. Tenthoff (TU Dortmund), based on techniques described by Tenthoff et al. (2020) and Domingue et al. (2015) with a global terrain model from Becker et al. (2016).
Music: Tim Garland – Moonlight Mystery
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
On 22 June 2023 at Europe’s Spaceport in French Guiana, engineers rolled back the mobile gantry protecting Ariane 6 on its launch pad. The exercise helped validate ground systems and prepare for a series of engine fire tests.
Credits: ESA ; S. Corvaja, ESA/M. Pédoussaut, Zetapress
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
30 June marks Asteroid Day, which aims to emphasise the importance of asteroids –their role in the formation of our Solar System, their impact in space resources and the importance of defending our planet from future impacts.
This year we are celebrating along with @universalpictures and @focusfeatures for the release of Wes Anderson’s new movie @AsteroidCity to bring you all the information you need to know about asteroids and how we protect our planet from them.
Credits: ESA – European Space Agency
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Watch Mercury appear from the shadows as the ESA/JAXA BepiColombo spacecraft sped by the planet’s night side during its 19 June 2023 close flyby, and enjoy a special flyover of geologically rich terrain.
The first part of the movie is composed of 217 images captured by BepiColombo’s monitoring camera M-CAM3. The image sequence starts from 19:46:25 UTC on 19 June 2023, at an altitude of 1 789 km above the planet’s surface, and ends at 20:34:25 UTC on 20 June 2023, when BepiColombo was 331 755 km away. The image cadence was roughly once per minute around closest approach, but much slower in the later phases.
The second part of the movie cuts to a flyover of a special region of interest, rotating around features such as the 600 km-long Beagle Rupes curved escarpment and the elongated Sveinsdóttir impact crater that it cuts through. It also features the 218 km-wide Manley Crater and the straight Challenger Rupes scarp. At the end, the animated topography fades out and the projected image used for 3D reconstruction appears. Regions like these will be important for BepiColombo’s main science mission, to learn more about Mercury’s geological history.
Music was composed for the sequence by ILĀ, with the assistance of AI tools developed by the Machine Intelligence for Musical Audio (MIMA) group, University of Sheffield.
Credits: Image: ESA/BepiColombo/MTM, CC BY-SA 3.0 IGO; Music composed by ILĀ. Shape from shading processing and animation (using Unity) by K. Wohlfarth and M. Tenthoff (TU Dortmund), based on techniques described by Tenthoff et al. (2020) and Domingue et al. (2015) with a global terrain model from Becker et al. (2016).
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Experience the thrill of the Paris Air Show 2023 with our 360VR tour! Join ESA astronaut Matthias Maurer as he guides you through the ESA pavilion, showcasing the Euclid satellite and the incredible journey of Juice to Jupiter. Immerse yourself in the excitement and mysteries of the universe. Don’t miss the chance to join us in person during the public days this weekend and get ready for an unforgettable adventure!
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
ESA’s Euclid mission is designed to bring the dark side of the Universe to light. Based on the way galaxies rotate and orbit one another, and the way in which the Universe is expanding, astronomers believe that two unseen entities dominate the composition of our cosmos. They call these mysterious components dark matter and dark energy, yet to date we have not been able to detect either of them directly, only inferring their presence from the effects they have on the Universe at large.
To better understand what dark matter and dark energy may be, we need a mission that can more closely reveal what effects they have had on galaxies, galaxy clusters and the expansion of the Universe itself. Euclid is that mission.
ESA’s Euclid mission will create a 3D-map of the Universe, with the third dimension representing time itself. The further away a galaxy is located, the longer its light has taken to reach us and so the earlier in cosmic history we will see it. By observing billions of galaxies out to a distance of 10 billion light-years, scientists will be able to chart the position and velocity of galaxies over immense distances and through most of cosmic history, and trace the way the Universe has expanded during that time. Euclid’s extraordinary optics will also reveal subtle distortions in the appearance of galaxies.
From this wealth of new data, astronomers will be able to infer the properties of dark energy and dark matter more precisely than ever before. This will help theorists pin down the nature of these mysterious components and develop a refined understanding of how gravity behaves at the largest distances.
Credit: ESA – European Space Agency
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
The 30th June marks Asteroid Day, which aims to emphasise the importance of asteroids –their role in the formation of our solar system, their impact in space resources and the importance of defending our planet from future impacts. This year we are celebrating along with @UniversalPictures for the release of Wes Anderson’s new movie Asteroid City to bring you all the information you need to know about asteroids and how we protect our planet from them. #AsteroidCityxAsteroidDay #AsteroidDay2023
📹 @EuropeanSpaceAgency
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
For a quarter century, Ariane 5 has been Europe’s heavy-lift workhorse. Flying from Europe’s Spaceport in French Guiana, Ariane 5 has carried to space a long series of commercial and scientific missions. Notable payloads include ESA’s comet-chasing Rosetta, a dozen of Europe’s Galileo navigation satellites – orbited with just three launches – the NASA/ESA/CSA James Webb Space Telescope and, in April 2023, ESA’s Juice mission to Jupiter.
Ariane 5 more than doubled the mass-to-orbit capacity of its predecessor, Ariane 4, which flew from 1988 until 2003 as a favourite of the telecommunications industry with its need to put large payloads into very high geosynchronous orbits. Ariane 5’s capacity enabled it to orbit two large telecommunications satellites on a single launch, or to push very large payloads into deep space.
After 117 flights, Ariane 5 is being replaced by an all-new launch vehicle, Ariane 6.
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We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
Our #Gaia spacecraft has captured a huge dark blob, 800 times more massive than our Sun which seems to be squeezed into a surprisingly small volume of space suggesting it could be an intermediate-mass black hole.
We are Europe’s gateway to space. Our mission is to shape the development of Europe’s space capability and ensure that investment in space continues to deliver benefits to the citizens of Europe and the world. Check out https://www.esa.int/ to get up to speed on everything space related.
