Copernical Team
Mars didn't dry up in one go
The Perseverance rover has just landed on Mars. Meanwhile, its precursor Curiosity continues to explore the base of Mount Sharp (officially Aeolis Mons), a mountain several kilometers high at the center of the Gale crater. Using the telescope on the ChemCam instrument to make detailed observations of the steep terrain of Mount Sharp at a distance, a French-US team headed by William Rapin, CNRS researcher at the Institut de Recherche en Astrophysique et Planétologie (CNRS/Université Toulouse III/CNES), has discovered that the Martian climate recorded there alternated between dry and wetter periods, before drying up completely about 3 billion years ago.
Lunar brightness temperature for calibration of microwave humidity sounders
Calibration and validation (CAL/VAL) is a key technology for quantitative application of space-borne remote sensing data. However, the complex space environment can cause many uncertainties and degrade calibration accuracy. In-flight calibration is always needed. The thermal emission of the Moon is stable over hundreds of years because there is no atmosphere and no significant physical or chemical change on its surface. The deep space view of the Microwave Humidity Sounder onboard NOAA-18 has viewed the Moon many times every year. Under solar illumination, the lunar surface shows stable and periodical variation in microwave brightness temperature (TB). The Moon is a potential calibration source for thermal calibration
The related work was published in Science China Earth Sciences as "Calibration of the space-borne microwave humidity sounder based on real-time thermal emission from lunar surface." Based on the heat conductive equation, the temperature profiles of lunar regolith at different regions and local time are simulated numerically with the real-time solar radiance and angle of incidence.
Satellites monitor Mount Etna’s unpredictable behaviour
Italy’s Mount Etna, Europe’s most active volcano, has recently been on explosive form, with 17 eruptions in less than three months. Instruments onboard three different satellites orbiting Earth have acquired imagery of the eruptions – revealing the intensity of the lava-fountaining eruptive episodes, known as paroxysms.
Ariane 6 pre-flight 'plumbing' tests
Optical links to connect air passengers securely
Flight passengers will be able to connect securely to their families and colleagues on Earth via sophisticated laser systems.
SpaceX launches 60 Starlink communications satellites
SpaceX launched 60 more of the company's Starlink Internet communications satellites into orbit from Florida on Wednesday. A Falcon 9 rocket carrying the spacecraft lifted off as planned at 12:34 p.m. EDT into a blue April sky with few clouds. "Falcon 9 has successfully lifted off from Cape Canaveral Space Force Station carrying our stack of Starling satellites to orbit," SpaceX
SKF bearings help Mars Rover collect rock and regolith samples on the planet's surface
Enabling the Mars Rover's core operations in the harsh environment on Mars are Kaydon RealiSlim thin-section ball bearings, designed and manufactured by SKF at the company's global thin-section bearing engineering center in Muskegon, and its recently expanded manufacturing hub in Sumter, USA. These highly engineered components contribute to the survival of the rover's main robotic arm, sam
First transiting exoplanet's 'chemical fingerprint' reveals its distant birthplace
Astronomers have found evidence that the first exoplanet that was identified transiting its star could have migrated to a close orbit with its star from its original birthplace further away. Analysis of the planet's atmosphere by a team including University of Warwick scientists has identified the chemical fingerprint of a planet that formed much further away from its sun than it currently resid
Trio of fast-spinning brown dwarfs may reveal a rotational speed limit
Using data from NASA's Spitzer Space Telescope, scientists have identified the three fastest-spinning brown dwarfs ever found. More massive than most planets but not quite heavy enough to ignite like stars, brown dwarfs are cosmic in-betweeners. And though they aren't as well known as stars and planets to most people, they are thought to number in the billions in our galaxy. In a study app
Asteroids are born big - and here is why!
Why do asteroids in the solar system have the sizes we observe? Two researchers at the Max Planck Institute for Astronomy have found an answer to that fundamental question: For the birth planets and planet precursors in our solar system 4.5 billion years ago, turbulence played a key role, helping to bring together pebble-like objects to form larger aggregations known as planetesimals. The presen