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Copernical Team

Copernical Team

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Seattle WA (SPX) Jan 28, 2021
For centuries, humans have blamed the moon for our moods, accidents and even natural disasters. But new research indicates that our planet's celestial companion impacts something else entirely - our sleep. In a paper published Jan. 27 in Science Advances, scientists at the University of Washington, the National University of Quilmes in Argentina and Yale University report that sleep cycles
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A CubeSat will test out water as a propulsion system
Artist’s conception of the Pathfinder Demonstrator-1 satellite that will test the Hydros propulsion system. Credit: NASA

Novel propulsion systems for CubeSats have been on an innovative tear of late. UT has reported on propulsion systems that use everything from solid iodine to the Earth's own magnetic field as a way of moving a small spacecraft. Now, there is a potential solution using a much more mundane material for a propellant—water.

Water has plenty of advantages going for it as a . Most obviously, it is not volatile or toxic, making it much easier to handle than conventional . One holding back the adoption of regular rocket fuel into widespread use in CubeSats is their explosive potential. CubeSats are usually housed next to larger, more expensive satellites in the payloads of rockets. If the rocket fuel loaded into a small CubeSat were to ignite unintentionally, it could completely destroy the much larger, more expensive telescope.

Tuesday, 26 January 2021 15:05

Video: EDRS: the space data highway

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The European Data Relay System, or EDRS, uses cutting-edge laser technology to greatly reduce the time it takes for information to be sent from low-Earth orbiting spacecraft—such as the Earth observing Sentinel satellites—to Earth.

The system makes Earth observation information available in almost real-time, which can help disaster management workers and the accelerate their responses to natural crises.

Known as the "space data highway," it currently consists of an extensive network of European ground stations and control centres, and two sister satellites: EDRS-A and EDRS-C. Both are in at an altitude of around 36 000 km, far higher than low-Earth orbiting spacecraft, which typically have an altitude of below 1000 km.

Thanks to the orbital position of the system's satellites, low-Earth orbiting spacecraft lie within the field of view of EDRS for extended periods. At the same time, EDRS has a permanent connection to its own ground stations located on European soil.

Traditionally, when a low-Earth orbiting sends information to Earth, it must wait until it has a direct line of sight to a ground station. This can lead to delays of up to 90 minutes.

Instead, the EDRS satellites relay data from spacecraft within their field of view, allowing people on Earth to receive Earth observation information in almost .

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Spacewalking astronauts improve station's European lab
In this image taken from NASA video, NASA astronaut Mike Hopkins works outside the International Space Station's European lab on Wednesday, Jan. 27, 2021. Hopkins and Victor Glover went spacewalking Wednesday to install a high-speed data link outside the International Space Station's European lab and connect cables for an experiment platform awaiting activation for almost a year. (NASA via AP)

Spacewalking astronauts installed a high-speed data link outside the International Space Station's European lab on Wednesday and tackled other improvements.

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Unique solar system views from NASA sun-studying missions
ESA and NASA’s Solar Orbiter took these images of Venus, Earth, and Mars on Nov. 18, 2020. Credit: ESA/NASA/NRL/Solar Orbiter/SolOHI

Though they focus on the star at the center of our solar system, three of NASA's Sun-watching spacecraft have captured unique views of the planets throughout the last several months. Using instruments that look not at the Sun itself, but at the constant outflow of solar material from the Sun, the missions—ESA and NASA's Solar Orbiter, NASA's Parker Solar Probe, and NASA's Solar and Terrestrial Relations Observatory—have sent home images from their distinct vantage points across the inner solar system.

All three missions carry instruments to study the Sun and its influence on space, including cameras that look out the sides of the to study the Sun's outer atmosphere, the solar wind, and the dust in the inner solar system. It's these instruments that, at various points in 2020, saw several planets pass through their fields of view.

Tuesday, 26 January 2021 14:02

A year in the life of GSTP

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Ins and outs of 3D printing

For more than a quarter of a century ESA’s optional General Support Technology Programme (GSTP) has been preparing promising technologies for space.

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OSIRIS-REx mission plans for May asteroid departure
This artist’s concept shows the OSIRIS-REx spacecraft departing asteroid Bennu to begin its two-year journey back to Earth. Credit: NASA/Goddard/University of Arizona

Since its launch in September 2016, the OSIRIS-REx spacecraft has traveled billions of miles, mapped the surface of an asteroid in unprecedented detail, and made new scientific discoveries about near-Earth asteroids. Now, it's preparing to bring a piece of asteroid Bennu home.

On May 10, NASA's OSIRIS-REx spacecraft will say farewell to asteroid Bennu and begin its two-year journey back to Earth, where the dust and rocks collected during the Touch-And-Go maneuver in October will be studied by scientists, including OSIRIS-REx mission principal investigator and University of Arizona planetary scientist Dante Lauretta.

During its Oct. 20, 2020, sample collection event, the spacecraft collected a substantial amount of material from Bennu's surface, likely exceeding the mission's requirement of 2 ounces, or 60 grams.

Tuesday, 26 January 2021 11:00

EDRS: the space data highway

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Video: 00:02:19

The European Data Relay System, or EDRS, uses cutting-edge laser technology to greatly reduce the time it takes for information to be sent from low-Earth orbiting spacecraft – such as the Earth observing Sentinel satellites – to Earth.

The system makes Earth observation information available in almost real-time, which can help disaster management workers and the emergency services accelerate their responses to natural crises.

Known as the ‘space data highway’, it currently consists of an extensive network of European ground stations and control centres, and two sister satellites: EDRS-A and EDRS-C. Both are in geostationary orbit at an altitude

Tuesday, 26 January 2021 08:38

The naming of Tooley crater

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The naming of Tooley crater
Tooley Crater is approximately 7 km wide; it is located inside a permanently shadowed region of Shoemaker Crater close to the lunar south pole, making one of the colder areas of the Moon. The image is a mosaic of high resolution of images from the Lunar Reconnaissance Orbiter Camera's (LROC) Narrow Angle Camera in a high gain mode that relies on the reflected light from nearby crater rims.
Tuesday, 26 January 2021 08:07

Satnav antenna built for ends of the Earth

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VeroStar antenna

A new ESA-supported wide-bandwidth satnav antenna has been designed to receive both satellite and augmentation signals from anywhere in the sky, even down to just a couple of degrees above the horizon.

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