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Feb 2, 2023

For those who missed the green comet, here are breathtaking videos, images of the rare astronomical sight

Posted by in categories: internet, space

The internet is abuzz with mentions of Comet C/2022 E3 (ZTF) a.k.a., the green comet, which on Wednesday could be seen with the naked eye.

As per NASA, the comet paid our planet a visit after a good 50,000 years. It was a rare feast for stargazers and astronomers alike as people around the globe witnessed the astronomical event.

Feb 2, 2023

In 50 years we’ll have ‘robot angels’ assisting us and will be able to merge our brains with AI, according to technology experts

Posted by in category: robotics/AI

Function receiveMessage(event) { console.log(; Android.fullscreen(; } window.addEventListener(“message”, receiveMessage.

Feb 2, 2023

Does Artificial Intelligence Impact Decision Making?

Posted by in categories: biotech/medical, robotics/AI

This post is also available in: he עברית (Hebrew)

Have you ever used Alexa to help you decide what movie you should watch? Maybe you asked Siri for restaurant recommendations. Artificial intelligence and virtual assistants are constantly being refined, and may soon be making appointments for you, offering medical advice, or trying to sell you a bottle of wine.

Continue reading “Does Artificial Intelligence Impact Decision Making?” »

Feb 2, 2023

Buzzing the brain with electricity can boost the willingness to engage in mental effort

Posted by in category: neuroscience

Neuroscientists have successfully increased the motivation to exert mental effort by using a weak alternating electrical current sent through electrodes attached to the scalp to synchronize brain waves. The findings, published in Cognitive, Affective, & Behavioral Neuroscience, help to identify the neural mechanisms underlying the willingness to engage in mental effort, suggesting that midfrontal theta oscillations play a key role.

“For a long time research has mainly focussed on which brain mechanisms underlie mental processes, but in the recent years it has become clear that engaging in mental activities needs to be understood as an active decision process where humans are willing to perform demanding mental tasks only if they are ‘worth it.’ The goal of our research was to get a better understanding of the brain mechanisms causally determining our motivation to engage in demanding mental activities,” explained study author Alexander Soutschek, a research group leader at the psychology department of the University of Munich.

For their study, the researchers utilized transcranial alternating current stimulation (tACS), a non-invasive neurostimulation technique that applies low-amplitude electrical current to the scalp through electrodes. The current modulates the neural activity in the brain regions under the electrodes, potentially enhancing or suppressing specific cognitive processes.

Continue reading “Buzzing the brain with electricity can boost the willingness to engage in mental effort” »

Feb 2, 2023

Ponderomotive recoil for electromagnetic waves

Posted by in category: particle physics

When waves damp or amplify on resonant particles in a plasma, nonresonant particles experience a recoil force that conserves the total momentum between particles and electromagnetic fields. This force is important to understand, as it can completely negate current drive and rotation drive mechanisms that are predicted on the basis of only resonant particles. Here, the existing electrostatic theory of this recoil force is extended to electromagnetic waves. While the result bears close similarity to historical fluid theories of laser–plasma interactions, it now incorporates both resonant and nonresonant particles, allowing momentum conservation to be self-consistently proven. Furthermore, the result is shown to be generally valid for kinetic plasmas, which is verified through single-particle hot-plasma simulations. The new form of the force provides physical insight into the nature of the generalized Minkowski (plasmon) momentum of geometrical optics, which is shown to correspond to the momentum gained by the field and nonresonant particles as the wave is self-consistently ramped up from vanishing amplitude.

Feb 2, 2023

Tracking Isotopes in the Upper Atmosphere

Posted by in category: futurism

The first measurements of a heavy oxygen isotope in Earth’s upper atmosphere suggest that isotopic concentrations could become powerful probes of atmospheric processes at otherwise hard-to-probe altitudes.

Feb 2, 2023

A flurry of RSV vaccine research may result in a protective immunization in the not-too-distant future

Posted by in categories: biotech/medical, futurism

A new analysis of how the immune system responds to both older and newer investigational vaccines for respiratory syncytial virus—RSV—will help inform the ultimate translation of an immunization from the laboratory to actual clinical usage.

The research couldn’t arrive at a more crucial time. The unexpected, and dramatic, worldwide escalation of RSV cases in recent months helped demonstrate why a vaccine to prevent the infectious illness is so critically needed. Each year, RSV is responsible for 1 in 50 pediatric deaths worldwide, according to researchers at Wilhelmina Children’s Hospital in the Netherlands, where medical researchers recently completed a study on RSV.

The majority of those deaths occur among infants too young to fight the viral disease. But the also is a killer of frail, older adults, data from the World Health Organization show, making the development of an effective vaccine a medical priority to prevent unnecessary deaths at opposite ends of the human age spectrum.

Feb 2, 2023

When your supernova’s a dud: Rare binary star features weirdly round orbit, researchers report

Posted by in categories: cosmology, physics

After crunching a mountain of astronomy data, Clarissa Pavao, an undergraduate at Embry-Riddle Aeronautical University’s Prescott, Arizona campus, submitted her preliminary analysis. Her mentor’s response was swift and in all-caps: “THERE’S AN ORBIT!” he wrote.

That was when Pavao, a senior space physics major, realized she was about to become a part of something big—a paper in the journal Nature that describes a rare binary star system with uncommon features.

The paper, published on Feb. 1, 2023, and co-authored with Dr. Noel D. Richardson, assistant professor of Physics and Astronomy at Embry-Riddle, describes a twin-star system that is luminous with X-rays and high in mass. Featuring a weirdly circular orbit—an oddity among binaries—the twin system seems to have formed when an or supernova fizzled out without the usual bang, similar to a dud firecracker.

Feb 2, 2023

Physicists observe rare resonance in molecules for the first time

Posted by in categories: chemistry, particle physics

If she hits just the right pitch, a singer can shatter a wine glass. The reason is resonance. While the glass may vibrate slightly in response to most acoustic tones, a pitch that resonates with the material’s own natural frequency can send its vibrations into overdrive, causing the glass to shatter.

Resonance also occurs at the much smaller scale of atoms and . When particles chemically react, it’s partly due to specific conditions that resonate with particles in a way that drives them to chemically link. But atoms and molecules are constantly in motion, inhabiting a blur of vibrating and rotating states. Picking out the exact resonating state that ultimately triggers molecules to react has been nearly impossible.

MIT physicists may have cracked part of this mystery with a new study appearing in the journal Nature. The team reports that they have for the first time observed a in colliding .

Feb 2, 2023

Performing matrix multiplications at the speed of light for enhanced cybersecurity

Posted by in categories: cybercrime/malcode, mathematics, robotics/AI

“All things are numbers,” avowed Pythagoras. Today, 25 centuries later, algebra and mathematics are everywhere in our lives, whether we see them or not. The Cambrian-like explosion of artificial intelligence (AI) brought numbers even closer to us all, since technological evolution allows for parallel processing of a vast amounts of operations.

Progressively, operations between scalars (numbers) were parallelized into operations between vectors, and subsequently, matrices. Multiplication between matrices now trends as the most time-and energy-demanding operation of contemporary AI computational systems. A technique called “tiled matrix multiplication” (TMM) helps to speed computation by decomposing matrix operations into smaller tiles to be computed by the same system in consecutive time slots. But modern electronic AI engines, employing transistors, are approaching their intrinsic limits and can hardly compute at clock-frequencies higher than ~2 GHz.

The compelling credentials of light—ultrahigh speeds and significant energy and footprint savings—offer a solution. Recently a team of photonic researchers of the WinPhos Research group, led by Prof. Nikos Pleros from the Aristotle University of Thessaloniki, harnessed the power of light to develop a compact silicon photonic computer engine capable of computing TMMs at a record-high 50 GHz clock frequency.

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