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Jul 12, 2024

Scientists unveil prototype spacesuit system that recycles urine as drinking water

Posted by in categories: space, sustainability

Researchers at Cornell University have designed a novel in-suit urine collection and filtration system, or “Dune” system,” to “promote astronaut wellbeing.”

Jul 12, 2024

Q&A About the Universe with Top Physicist Neil Turok

Posted by in categories: physics, space

Welcome to Rethinking the Foundations brought to you by Curt Jaimungal at Theories of Everything. Today, Professor Neil Turok answers questions from the audience! This is Part 2 to Neil’s Rethinking the Foundations episode. Part 1 can be seen here: • Rethinking the Foundations of Physics…

Listen on Spotify: https://open.spotify.com/show/4gL14b9

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Jul 12, 2024

Gateway: The first lunar space station

Posted by in category: space

An interplay of light and shadows cast the docking ports for Gateway, humanity’s first space station around the moon, into sharp relief.

Jul 12, 2024

What flavor is that neutrino? Adding flavor helps to track neutrino movement in astrophysical systems

Posted by in categories: particle physics, quantum physics, space

Neutrinos have a quantum mechanical property called “flavor.” This flavor can transform as neutrinos move through space. A major challenge is to keep track of both the physical movement of the neutrinos and their change of flavor in astrophysical systems such as core-collapse supernovae and neutron star mergers. The complicated arrangement and large number of neutrinos in these systems make it nearly impossible to follow all or even a subset of the neutrinos.

Jul 12, 2024

Real-life ‘stillsuit’: Dune-inspired upgrade for spacesuits allow astronauts to recycle urine into water

Posted by in category: space

Astronauts on spacewalks famously have to relieve themselves inside their spacesuits. Not only is this uncomfortable for the wearer and unhygienic, it is also wasteful, as—unlike wastewater on board the International Space Station (ISS)—the water in urine from spacewalks is not recycled.

Jul 11, 2024

Similarities Between Mars Soils and Newfoundland’s Subarctic Climate

Posted by in categories: climatology, space

“This shows that you need the water there in order to form these materials,” said Dr. Anthony Feldman. “But it needs to be cold, near-freezing mean annual temperature conditions in order to preserve the amorphous material in the soils.”


What was ancient Mars like? Was it warmer and wetter than it is today or cold and icy like present day Mars? This is what a recent study published in Communications Earth & Environment hopes to address as a team of researchers comprised of NASA scientists and academics investigated whether past climates on Mars mirrored today’s climate or were much warmer and had liquid water. This study holds the potential to help researchers better understand the climate history of Mars and whether it had the necessary conditions to support life as we know it.

For the study, the researchers analyzed X-ray data of soil material, which the researchers refer to as “X-ray amorphous material”, obtained from NASA’s Curiosity rover in Gale Crater on Mars and compared it to similar material at sites on Earth located in Newfoundland, California, and Nevada using the same X-ray methods employed by the Curiosity rover.

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Jul 11, 2024

Overcoming Longstanding Quantum Computing Roadblock: Scientists Develop Efficient 2D Device for Quantum Cooling

Posted by in categories: computing, nanotechnology, quantum physics, space

Engineers at EPFL have developed a device capable of transforming heat into electrical voltage efficiently at temperatures even colder than those found in outer space. This breakthrough could significantly advance quantum computing technologies by addressing a major obstacle.

To perform quantum computations, quantum bits (qubits) need to be cooled to temperatures in the millikelvin range (close to-273 degrees Celsius) to reduce atomic motion and minimize noise. However, the electronics used to control these quantum circuits generate heat, which is challenging to dissipate at such low temperatures. Consequently, most current technologies must separate the quantum circuits from their electronic components, resulting in noise and inefficiencies that impede the development of larger quantum systems beyond the laboratory.

Researchers in EPFL’s Laboratory of Nanoscale Electronics and Structures (LANES), led by Andras Kis, in the School of Engineering have now fabricated a device that not only operates at extremely low temperatures, but does so with efficiency comparable to current technologies at room temperature.

Jul 10, 2024

Researchers demonstrate how to build ‘time-traveling’ quantum sensors

Posted by in categories: quantum physics, space, time travel

The idea of time travel has dazzled sci-fi enthusiasts for years. Science tells us that traveling to the future is technically feasible, at least if you’re willing to go near the speed of light, but going back in time is a no-go. But what if scientists could leverage the advantages of quantum physics to uncover data about complex systems that happened in the past?

New research indicates that this premise may not be that far-fetched. In a paper published June 27, 2024, in Physical Review Letters, Kater Murch, the Charles M. Hohenberg Professor of Physics and Director of the Center for Quantum Leaps at Washington University in St. Louis, and colleagues Nicole Yunger Halpern at NIST and David Arvidsson-Shukur at the University of Cambridge demonstrate a new type of quantum sensor that leverages quantum entanglement to make -traveling detectors.

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Jul 10, 2024

Study investigates the nature of very-high energy gamma-ray source TeV J2032+4130

Posted by in categories: energy, space

Using the High-Altitude Water Cherenkov (HAWC) observatory, an international team of astronomers has observed a very-high energy gamma-ray source designated TeV J2032+4130. Results of the observational campaign, presented July 3 on the preprint server arXiv, provide crucial information regarding the nature of this source.

Sources emitting with between 100 GeV and 100 TeV are called very-high energy (VHE) gamma-ray sources, while those with photon energies above 0.1 PeV are known as ultra-high energy (UHE) gamma-ray sources. The nature of these sources is still not well understood; therefore, astronomers are constantly searching for new objects of this type to characterize them, which could shed more light on their properties in general.

TeV J2032+4130 was identified in 2005 by the High Energy Gamma Ray Astronomy (HEGRA) experiment as the first VHE gamma-ray source in the TeV range with no lower-energy counterpart. Previous observations of TeV J2032+4130 have revealed that it consists of two sources, namely HAWC J2030+409 and HAWC J2031+415, which is coincident with a pulsar wind nebula (PWN).

Jul 10, 2024

Dark Comets and the Potential Delivery of Water to Earth

Posted by in categories: evolution, space

“We think these objects came from the inner and/or outer main asteroid belt, and the implication of that is that this is another mechanism for getting some ice into the inner solar system,” said Aster Taylor.


What are dark comets and how are they responsible for delivering water to the Earth? This is what a recent study published in Icarus hopes to address as a team of international researchers investigated the origins of dark comets and their evolution throughout the history of the solar system, including how much water they could have potentially brought to Earth in the past. This study holds the potential to help astronomers better understand dark comets and the formation and evolution of planetary bodies throughout the solar system.

Dark comets are often described as being a combination of asteroids and classified based on their unique behaviors, specifically their ability to accelerate without the aid of gravitational means, which researchers have previously hypothesized to be invisible gas jets emanating like traditional comets. Additionally, their physical characteristics consist of dark surfaces that could be hiding an icy subsurface, whereas traditional comets exhibit icy characteristics directly on their surface.

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