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Archive for the ‘particle physics’ category: Page 295

Feb 1, 2022

Koenigsegg’s Tiny Electric Motor Makes 335 HP and 443 LB-FT of Torque

Posted by in categories: particle physics, transportation

Dubbed the “Quark,” the motor weighs just 63 pounds.


Koenigsegg is also marketing an EV drive unit made up of two Quark motors, plus its small-but-powerful inverter, and small low-ratio planetary gearsets at each output shaft. The unit is called the “Terrier,” and serves up 670 hp and 811 lb-ft in a package that weighs just 187 pounds, and which offers torque vectoring across an axle. A Terrier can be bolted directly to a car’s monocoque as well.

More information on the Terrier unit is forthcoming, and presumably, it will be featured on future Koenigsegg products. As ever, the numbers are deeply impressive and entirely unsurprising from the innovative Swedish firm.

Continue reading “Koenigsegg’s Tiny Electric Motor Makes 335 HP and 443 LB-FT of Torque” »

Feb 1, 2022

Scientists successfully produced particle-antiparticle pairs from a vacuum

Posted by in categories: materials, particle physics

Cosmic physics mimicked on table-top as graphene enables Schwinger effect.

Jan 31, 2022

NVIDIA GPUs Enable Simulation of a Living Cell

Posted by in categories: chemistry, computing, genetics, particle physics

Researchers from the University of Illinois developed GPU-accelerated software to simulate a cell that metabolizes and grows like a living cell.


Every living cell contains its own bustling microcosm, with thousands of components responsible for energy production, protein building, gene transcription and more.

Scientists at the University of Illinois at Urbana-Champaign have built a 3D simulation that replicates these physical and chemical characteristics at a particle scale — creating a fully dynamic model that mimics the behavior of a living cell.

Continue reading “NVIDIA GPUs Enable Simulation of a Living Cell” »

Jan 31, 2022

Dr. Marvin Minsky — Facing the Future

Posted by in categories: bioengineering, government, life extension, particle physics, robotics/AI

Dr. Marvin Minsky — A.I. Pioneer & Mind Theorist. Professor of Media Arts and Sciences, MIT, Media Lab http://GF2045.com/speakers.

As soon as we understand how the human brain works, we should be able to make functional copies of our minds out of other materials. Given that everything is made of atoms, if you make a machine, in some sense it is made of the same kinds of materials as brains are made but organized either in very different ways or fundamentally the same ways.

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Jan 31, 2022

IBM and CERN use quantum computing to hunt elusive Higgs boson

Posted by in categories: computing, finance, information science, particle physics, quantum physics

That is not to say that the advantage has been proven yet. The quantum algorithm developed by IBM performed comparably to classical methods on the limited quantum processors that exist today – but those systems are still in their very early stages.

And with only a small number of qubits, today’s quantum computers are not capable of carrying out computations that are useful. They also remain crippled by the fragility of qubits, which are highly sensitive to environmental changes and are still prone to errors.

Rather, IBM and CERN are banking on future improvements in quantum hardware to demonstrate tangibly, and not only theoretically, that quantum algorithms have an advantage.

Jan 30, 2022

Burning plasma! Controlled nuclear fusion on Earth briefly sustains itself

Posted by in categories: nuclear energy, particle physics

We’ve been trying for a long time to make a tiny Sun on Earth, one that would sustainably produce energy by nuclear fusion of hydrogen or similar atoms. Come to think of it, I’d like one for my basement.

Fusion requires quite a bit of heat to get going, but once it does, it starts producing its own heat. If you can keep that system contained so it doesn’t expand too much or allow too much heat to escape, further fusion happens. If it reaches a point where self-heating becomes the primary driver of fusion, you have yourself a “burning plasma”.

Continue reading “Burning plasma! Controlled nuclear fusion on Earth briefly sustains itself” »

Jan 30, 2022

How Mathematical ‘Hocus-Pocus’ Saved Particle Physics

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

“It is what I would call a dippy process,” Richard Feynman later wrote. “Having to resort to such hocus-pocus has prevented us from proving that the theory of quantum electrodynamics is mathematically self-consistent.”

Justification came decades later from a seemingly unrelated branch of physics. Researchers studying magnetization discovered that renormalization wasn’t about infinities at all. Instead, it spoke to the universe’s separation into kingdoms of independent sizes, a perspective that guides many corners of physics today.

Renormalization, writes David Tong, a theorist at the University of Cambridge, is “arguably the single most important advance in theoretical physics in the past 50 years.”

Jan 30, 2022

Massless particles can’t be stopped

Posted by in categories: cosmology, particle physics

If a particle has no mass, how can it exist?

Scientists think that, under some circumstances, dark matter could generate powerful enough gravitational waves for equipment like LIGO to detect.

Four physicists share their journeys through academia into industry and offer words of wisdom for those considering making a similar move.

Jan 28, 2022

Burn, baby, burn: Nuclear scientists achieve major fusion feat

Posted by in categories: nuclear energy, particle physics

The ultimate goal, still years away, is to generate power the way the sun generates heat, by smooshing hydrogen atoms so close to each other that they combine into helium, which releases torrents of energy.

WATCH: Is alluring but elusive fusion energy possible in our lifetime?

A team of more than 100 scientists published the results of four experiments that achieved what is known as a burning plasma in Wednesday’s journal Nature. With those results, along with preliminary results announced last August from follow-up experiments, scientists say they are on the threshold of an even bigger advance: ignition. That’s when the fuel can continue to “burn” on its own and produce more energy than what’s needed to spark the initial reaction.

Jan 28, 2022

Simulations show iron catalyzes corrosion in ‘inert’ carbon dioxide

Posted by in categories: materials, particle physics

Iron that rusts in water theoretically shouldn’t corrode in contact with an “inert” supercritical fluid of carbon dioxide. But it does.

The reason has eluded to now, but a team at Rice University has a theory that could contribute to new strategies to protect iron from the environment.

Materials theorist Boris Yakobson and his colleagues at Rice’s George R. Brown School of Engineering found through atom-level simulations that iron itself plays a role in its own corrosion when exposed to supercritical CO2 (sCO2) and trace amounts of water by promoting the formation of reactive species in the fluid that come back to attack it.