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Mar 16, 2023

NASA Reveals the Spacesuit Astronauts Will Wear on the Moon

Posted by in category: space

The Axiom Extravehicular Mobility Unit (AxEMU) spacesuit is designed to enhance mobility and offer extra protection from hazards on the Moon. The prototype is dark gray in color, but NASA’s Johnson Space Center confirmed in a tweet (Opens in a new window) that the final design is probably going to be “all-white.”

Axiom Space, which last year snagged a $228.5 million contract to deliver a “moonwalking system,” will continue innovating the suit’s life support systems, pressure garments, and avionics ahead of NASA’s scheduled 2025 trip to the lunar South Pole.

Mar 16, 2023

Could Brain-Computer Interfaces Lead to ‘Mind Control for Good’?

Posted by in categories: computing, neuroscience

Of all the advanced technologies currently under development, one of the most fascinating and frightening is brain-computer interfaces. They’re fascinating because we still have so much to learn about the human brain, yet scientists are already able to tap into certain parts of it. And they’re frightening because of the sinister possibilities that come with being able to influence, read, or hijack peoples’ thoughts.

But the worst-case scenarios that have been played out in science fiction are just one side of the coin, and brain-computer interfaces could also be a tremendous boon to humanity—if we create, manage, and regulate them correctly. In a panel discussion at South by Southwest this week, four experts in the neuroscience and computing field discussed how to do this.

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Mar 16, 2023

Quantum Light Could Probe Chemical Reactions in Real Time

Posted by in categories: chemistry, mathematics, particle physics, quantum physics

For their new study, the researchers aimed to understand how quantum correlations inside a source material, be it a gas or a mineral, would impact the quantum properties of the light bursts coming out, if at all. “High harmonic generation is a very important area. And still, until recently, it was described by a classical picture of light,” Kaminer says.

In quantum mechanics, figuring out what’s going on with more than a few particles at the same time is notoriously difficult. Kaminer and Alexey Gorlach, a graduate student in his lab, used their COVID-imposed isolation to try to make progress on a fully quantum description of light emitted in high harmonics. “It’s really crazy; Alexey built a super complex mathematical description on a scale that we’ve never had before,” Kaminer says.

Next, to fully incorporate the quantum properties of the material used to generate this light, Kaminer and Gorlach teamed up with Andrea Pizzi, then a graduate student at the University of Cambridge and now a postdoctoral fellow at Harvard University.

Mar 16, 2023

First Stars In the Universe Were Ultra Massive Existing Only 1000s of Years

Posted by in categories: bitcoin, cryptocurrencies

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Hello and welcome! My name is Anton and in this video, we will talk about theories potentially explaining early stars and what they were like.
Links:
https://arxiv.org/abs/2301.

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Mar 16, 2023

How Big Is a Proton? Neutrinos Weigh In

Posted by in category: particle physics

The team’s measurement of the proton’s radius was 0.73 femtometer, even smaller than the 0.84-femtometer electric charge radius. In either case, it is almost 10,000 times smaller than a hydrogen atom.

To be clear, this apparent 13 percent shrinkage is not a blow to the electric charge radius measurements and not as shocking as it may seem. The two measurements are complementary and work together to offer a big picture view of the little proton. Because they measure different distributions of matter, the discrepancy does not challenge our understanding of the proton the same way its previous 4 percent shrinkage did. Instead it adds to that understanding.

“The thing that makes this measurement really interesting is not whether or not it agrees with the electron measurements of the electromagnetic proton radius but the fact that it didn’t have to agree at all,” says Deborah Harris, co-spokesperson for the MINERvA experiment. This is because the way neutrinos interact with up quarks versus down quarks is very different from how quarks interact with electrons. Instead of an electromagnetic interaction, neutrinos interact via a different force called the weak force. (But don’t let its name fool you—the weak force is quite strong across subatomic distances!)

Mar 16, 2023

Faint gravitational waves may be from primordial fractures time

Posted by in categories: particle physics, quantum physics

With each of these splittings, the universe completely remolded itself. New particles arose to replace ones that could exist only in extreme conditions previously. The fundamental quantum fields of space-time that dictate how particles and forces interact with each other reconfigured themselves. We do not know how smoothly or roughly these phase transitions took place, but it’s perfectly possible that with each splitting, the universe settled into multiple identities at once.

This fracturing isn’t as exotic as it sounds. It happens with all kinds of phase transitions, like water turning into ice. Different patches of water can form ice molecules with different orientations. No matter what, all the water turns into ice, but different domains can have differing molecular arrangements. Where those domains meet walls, or imperfections, fracturing will appear.

Physicists are especially interested in the so-called GUT phase transition of our universe. GUT is short for “grand unified theory,” a hypothetical model of physics that merges the strong nuclear force with electromagnetism and the weak nuclear force. These theories are just beyond the reach of current experiments, so physicists and astronomers turn to the conditions of the early universe to study this important transition.

Mar 16, 2023

Sentience: The Invention of Consciousness

Posted by in categories: innovation, neuroscience

Author Nick Humphrey shares 5 key insights from his new book, Sentience: The Invention of Consciousness.

Mar 16, 2023

A Growing Number of Scientists Are Convinced the Future Influences the Past

Posted by in categories: futurism, physics

“Our instincts of time and causation are our deepest, strongest instincts that physicists and philosophers—and humans—are loath to give up,” said one scientist.

Mar 16, 2023

The Reality Of Deep Sea Mining Is Getting Closer As Are The Consequences

Posted by in category: futurism

A two-week meeting starting in Kingston, Jamaica, today could lead to the beginning of deep-sea mining of the ocean floor this year.


A meeting of 167 nations of the International Seabed Authority in Jamaica this week plans to finalize regulating ocean seafloor mining.

Mar 16, 2023

Substitution or Silent or Neutral Mutations

Posted by in category: futurism

This video explains substitution or silent or neutral mutations.

Thank You For Watching.

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