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Dec 21, 2019

ESA’s CHEOPS Just Launched. We’re About to Learn a LOT More About Exoplanets

Posted by in category: space

The CHEOPS mission is underway. On December 18th, the exoplanet-studying spacecraft launched from Europe’s Spaceport in Kourou, French Guiana aboard a Soyuz-Fregat rocket. Initial signals from CHEOPS show that the launch was a success.

CHEOPS stands for the Characterizing Exoplanet Satellite. It’s a partnership between ESA and Switzerland, with 10 other EU states contributing. Its mission is not to find more exoplanets, but to study the ones we already know of.

Continue reading “ESA’s CHEOPS Just Launched. We’re About to Learn a LOT More About Exoplanets” »

Dec 21, 2019

The immune system listens in on bacteria signaling to each other

Posted by in category: biotech/medical

The immune response can be modulated by bacterial signaling molecules.

Dec 21, 2019

Space-time metasurface makes light reflect only in one direction

Posted by in categories: physics, space travel

Light propagation is usually reciprocal, meaning that the trajectory of light travelling in one direction is identical to that of light travelling in the opposite direction. Breaking reciprocity can make light propagate only in one direction. Optical components that support such unidirectional flow of light, for example isolators and circulators, are indispensable building blocks in many modern laser and communication systems. They are currently almost exclusively based on the magneto-optic effect, making the devices bulky and difficult for integration. A magnetic-free route to achieve nonreciprocal light propagation in many optical applications is therefore in great demand.

Recently, scientists developed a new type of optical metasurface with which in both space and time is imposed on the , leading to different paths for the forward and backward light propagation. For the first time, nonreciprocal in was realized experimentally at optical frequencies with an ultrathin component.

“This is the first optical metasurface with controllable ultrafast time-varying properties that is capable of breaking optical reciprocity without a bulky magnet,” said Xingjie Ni, the Charles H. Fetter Assistant Professor in Department of Electrical Engineering at the Pennsylvania State University. The results were published this week in Light: Science and Applications.

Dec 21, 2019

Japan will build the world’s largest neutrino detector

Posted by in category: particle physics

Cabinet greenlights US$600-million Hyper-Kamiokande experiment, which scientists hope will bring revolutionary discoveries.

Dec 21, 2019

London’s electric buses are getting fake noise, and it’s positively psychedelic

Posted by in categories: law, sustainability, transportation

From next year, some of London’s electric buses will play artificial noise while traveling at low speeds, and the specific sound that’s been created for them is an ambient treat for the ears. The noise was created by Zelig Sound, which has been working with Transport for London on the audio over the past year.

The sound is being introduced in response to a new EU law which stipulates that all electric vehicles will eventually need to produce artificial noise while traveling at low speeds, to make up for the lack of noise from their internal engines. If you can’t hear a vehicle, then you’re not as aware of its presence, and research suggests pedestrians are more likely to be hit by electric or hybrid cars as a result.

Wired reports the base note is a soft F#maj7 chord, with a slight pulsing sound in the background. This is what gets played when a bus is stationary:

Dec 21, 2019

Apple reportedly working on a satellite network for its own devices

Posted by in category: mobile phones

Apple is said to be putting together a satellite network that could help iPhones and other Apple gear stay connected.

Dec 21, 2019

Discovering a new fundamental underwater force

Posted by in categories: biological, food, mathematics, particle physics, space

A team of mathematicians from the University of North Carolina at Chapel Hill and Brown University has discovered a new phenomenon that generates a fluidic force capable of moving and binding particles immersed in density-layered fluids. The breakthrough offers an alternative to previously held assumptions about how particles accumulate in lakes and oceans and could lead to applications in locating biological hotspots, cleaning up the environment and even in sorting and packing.

How matter settles and aggregates under gravitation in systems, such as lakes and oceans, is a broad and important area of scientific study, one that greatly impacts humanity and the planet. Consider “marine snow,” the shower of organic matter constantly falling from upper waters to the deep ocean. Not only is nutrient-rich essential to the global food chain, but its accumulations in the briny deep represent the Earth’s largest carbon sink and one of the least-understood components of the planet’s carbon cycle. There is also the growing concern over microplastics swirling in ocean gyres.

Ocean particle accumulation has long been understood as the result of chance collisions and adhesion. But an entirely different and unexpected phenomenon is at work in the , according to a paper published Dec. 20 in Nature Communications by a team led by professors Richard McLaughlin and Roberto Camassa of the Carolina Center for Interdisciplinary Applied Mathematics in the College of Arts & Sciences, along with their UNC-Chapel Hill graduate student Robert Hunt and Dan Harris of the School of Engineering at Brown University.

Dec 21, 2019

Nawa’s stylish e-motorbike uses an ultracapacitor to drastically boost range

Posted by in categories: energy, transportation

Nawa’s Racer goes farther than other e-bikes thanks to an ultracapacitor that harvests more brake energy.

Dec 21, 2019

Lucid Motors doesn’t want to be a ‘Tesla Killer’

Posted by in category: futurism

Lucid sees Mercedes, not Tesla, as its main competitor.

Dec 21, 2019

Futuristic Upside-Down Railway in Wuppertal, Germany

Posted by in category: futurism

It’s hard to believe this futuristic tram opened in 1901!