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Jul 20, 2022

Researchers Set New Quantum Entanglement Distance Record

Posted by in categories: particle physics, quantum physics

Scientists have been grappling with the strangeness of quantum entanglement for decades, and it’s almost as mysterious in 2022 as it was when Einstein famously dubbed the phenomenon “spooky action at a distance” in 1947. An experiment in Germany that set a new entanglement distance record — with atoms rather than photons — could help shed some light on this quirk of the universe.

Entanglement was initially proposed in the early 20th century as a consequence of quantum mechanics, but many scientists of the day, even Einstein himself, considered it to be impossible. However, many of the counterintuitive predictions of quantum mechanics have been verified over the years, including entanglement. As we’ve seen in numerous experiments, it is possible for particles to be “entangled” such that properties like position, momentum, spin, and polarization can be shared between them. A change in one is immediately reflected in its twin.

Scientists believe entanglement could form the basis for future communication systems that are faster and more secure than what we use today — if you measure the state of one entangled partner, you automatically know the state of the other, and this could be used to transmit data. You just need to separate the entangled pair to make it useful, and researchers from Ludwig-Maximilians-University Munich (LMU) and Saarland University have pushed that range much farther in the new experiment.

Jul 20, 2022

New semiconductor laser delivers high power at a single frequency

Posted by in categories: energy, materials

Physics World


To get around this problem, Kanté and colleagues utilized photonic crystals. These are periodic structures, which, like electronic semiconductors, have “band gaps” – frequencies at which they are opaque. Like graphene in electronics, photonic crystals generally contain Dirac cones in their band structures. At the vertex of such a cone is the Dirac point, where the band gap closes.

Jul 20, 2022

Our new Quantum Virtual Machine will accelerate research and help people learn quantum computing

Posted by in categories: computing, quantum physics

Jul 20, 2022

The world needs more vaccines, faster. A tiny tube could make all the difference

Posted by in category: biotech/medical

Circa 2021


Vaccines are made in batches, but some researchers want to overhaul that system to make the manufacturing continuous, efficient, and democratic.

Jul 20, 2022

I Used Only My Mind to Fly a Plane Around Seatte

Posted by in categories: computing, neuroscience

Circa 2016


I use my thoughts and a brain-computer interface to swoop through the air.

Jul 20, 2022

Sci-fi no more: Synchron implants mind-reading device in first US patient in paralysis trial

Posted by in categories: biotech/medical, neuroscience

😳!!!!!


In a milestone that could turn sci-fi into fact, the first U.S. clinical trial of a brain implant that returns the power of communication to severely paralyzed people has begun. | In a milestone that could turn sci-fi into fact, the first U.S. clinical trial of a brain implant that returns the power…

Jul 20, 2022

GM unveils Chevy Blazer EV to challenge Tesla Model Y

Posted by in categories: sustainability, transportation

GM unveiled Monday evening the Chevrolet Blazer EV, an all-electric SUV with up to 320 miles of range and a starting price of $48,000 that CEO and Chairman Mary Barra hopes will supercharge her bid to surpass Tesla in U.S. EV sales by 2025.

The Chevrolet Blazer EV, which will go on sale in 2023 as a 2024 model year, isn’t the only impending GM electric vehicle. A slew of Cadillac and Chevy EVs are also making their way to market. But the Blazer, at its more affordable price point and in the lucrative SUV segment, could kick-start GM’s sales goals.

Internally, the confidence is high. Blazer is going be a massive statement and illustrate how GM can hit big volume segments, according to Scott Bell, Global VP of Chevrolet.

Jul 20, 2022

Exploiting the quantum mechanically derived force field for functional materials simulations

Posted by in categories: chemistry, computing, quantum physics

Circa 2021 force field this can also shield the earth or cities.


The computational design of functional materials relies heavily on large-scale atomistic simulations. Such simulations are often problematic for conventional classical force fields, which require tedious and time-consuming parameterization of interaction parameters. The problem can be solved using a quantum mechanically derived force field (QMDFF)—a system-specific force field derived directly from the first-principles calculations. We present a computational approach for atomistic simulations of complex molecular systems, which include the treatment of chemical reactions with the empirical valence bond approach. The accuracy of the QMDFF is verified by comparison with the experimental properties of liquid solvents.

Jul 20, 2022

Scientists Want to Make Mars Conducive to Life. With an Artificial Magnetosphere?

Posted by in categories: engineering, environmental, space

Circa 2021


A new study says that we could terraform Mars by creating an artificial magnetic field around it to prevent harmful solar radiation.

Jul 20, 2022

We tested AI interview tools. Here’s what we found

Posted by in category: robotics/AI

One gave our candidate a high score for English proficiency when she spoke only in German.