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Dec 17, 2022

SpinQ Introduces Trio of Portable Quantum Computers

Posted by in categories: computing, information science, military, quantum physics

Switch-Science has just announced a trio of quantum computing products that the company claims are the world’s first portable quantum computers. Sourced from SpinQ Technology, a Chinese quantum computing company based in Shenzen, the new quantum computing products have been designed for educational purposes. The aim is to democratize access to physical quantum computing solutions that can be deployed (and redeployed) at will. But considering the actual quantum machinery on offer, none of these (which we’re internally calling “quantops”) are likely to be a part of the future of quantum.

The new products being developed with education in mind shows in their qubit counts, which top out at three (compare that to Google’s Sycamore or IBM’s 433-qubit Osprey Quantum Processing Unit [QPU], both based on superconducting qubits). That’s not enough a number for any viable, problem-solving quantum computing to take place within these machines, but it’s enough that users can program and run quantum circuits — either the integrated, educational ones, or a single custom algorithm.

Dec 17, 2022

Ask Ethan: Do protons really contain charm quarks?

Posted by in category: particle physics

Every proton contains three quarks: two up and one down. But charm quarks, heavier than the proton itself, have been found inside. How?

Dec 17, 2022

Upgrading Your Computer to Quantum

Posted by in categories: computing, quantum physics

Computers that can use quantum mechanics’ “spooky” properties to solve problems quicker than existing technology may seem appealing, but they must first overcome a major obstacle. Scientists from Japan may have discovered the solution by demonstrating how a superconducting material, niobium nitride, can be added as a flat, crystalline layer to a nitride-semiconductor substrate. This technique could make it simple to manufacture quantum qubits that can be used with conventional computer devices.

Conventional silicon microprocessor manufacturing techniques have grown over decades and are continually being refined and enhanced. On the other hand, the majority of quantum computing.

Performing computation using quantum-mechanical phenomena such as superposition and entanglement.

Dec 17, 2022

Unexpected Findings in “Little” Big Bang Experiment Leaves Physicists Baffled

Posted by in categories: cosmology, particle physics

A temperature not seen since the first microsecond of the birth of the universe has been recreated by scientists, and they discovered that the event did not unfold quite the way they expected. The interaction of energy, matter, and the strong nuclear force in the ultra-hot experiments conducted at the Relativistic Heavy Ion Collider (RHIC) was thought to be well understood. However, a detailed investigation has revealed that physicists are missing something in their model of how the universe works. A recent paper detailing the findings appears in the journal Physical Review Letters.

“It’s the things you weren’t expecting that are really trying to tell you something in science,” says Steven Manly, associate professor of physics and astronomy at the University of Rochester and co-author of the paper. “The basic nature of the interactions within the hot, dense medium, or at least the manifestation of it, changes depending on the angle at which it’s viewed. We don’t know why. We’ve been handed some new pieces to the puzzle and we’re just trying to figure out how this new picture fits together.”

“They said, ‘This can’t be. You’re violating boost invariance.’ But we’ve gone over our results for more than a year, and it checks out.” —

Dec 17, 2022

Weird quantum effect used for highly precise interferometer

Posted by in categories: particle physics, quantum physics

A team of researchers from France has developed the first three-directional hybrid quantum inertial sensor, which can measure acceleration without using satellite signals. At the heart of this breakthrough device is something called “matter wave interferometry,” which uses two distinct characteristics of quantum mechanics: wave-particle duality and superposition.

In the cloud

The device consists of a cloud of rubidium atoms that are cooled to temperatures nearing absolute zero. The atoms are placed in a vacuum and are in free fall due to gravity.

Dec 17, 2022

Scientists find material with highest toughness ever recorded

Posted by in categories: engineering, transportation

“The toughness of this material near liquid helium temperatures (20 kelvin, −253°C) is as high as 500 megapascals square root metres,” said Robert Ritchie, Professor of Mechanical Engineering at Berkeley and study co-author. “In the same units, the toughness of a piece of silicon is one, the aluminium airframe in passenger airplanes is about 35, and the toughness of some of the best steels is around 100. So, 500, it’s a staggering number.”

The team’s new findings, alongside other recent work on HEAs, may force the materials science community to reconsider long-held notions about how physical characteristics give rise to performance.

“It’s amusing, because metallurgists say that the structure of a material defines its properties, but the structure of the CrCoNi is the simplest you can imagine – it’s just grains,” explained Ritchie.

Dec 17, 2022

A New Material Can Stop Supersonic Impacts

Posted by in category: materials

A team of researchers managed to develop an ultra-resistant material that can stop projectiles at high speeds without breaking.

Dec 17, 2022

Cough hypersensitivity and chronic cough Reviews Disease Primers

Posted by in categories: biotech/medical, futurism

Winter and rainly season are worst for those who have chronic cough.even little rain increases throat pain.


This Primer by Mazzone and colleagues summarizes the epidemiology, pathophysiology, diagnosis and treatment of chronic cough and cough hypersensitivity. This Primer also discusses how cough hypersensitivity and chronic cough affect patients’ quality of life and future research directions for the field.

Dec 17, 2022

Size Matters in Cellular Aging

Posted by in categories: biotech/medical, life extension, neuroscience

In a new review article published in Frontiers in Cell and Developmental Biology, researchers have suggested adding cellular enlargement to the hallmarks of aging [1].

Different cell types are known to have different shapes and sizes, which are dictated by their functions. In humans, sperm cells (male gametes) and ova (female gametes) have the smallest and largest diameters, respectively. On the other hand, some neurons are the longest cells: their axons can be over a meter long.

Nevertheless, within a specific cell type, the size variation is negligible. It has been long observed that healthy cells tend to maintain their size and that size changes are characteristic of pathological conditions. Cancer cells are often smaller than normal cells, while senescence leads to cellular enlargement [2].

Dec 17, 2022

Cellular Reprogramming In Practice | Prof Vittorio Sebastiano Interview Series 2 Ep3

Posted by in categories: biotech/medical, life extension

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In this video Professor Sebastiano discusses the results that he and his team have had in rejuvenating human cells and how the process could be applied as well as their experience rejuvenating a muscle in an old mouse.

Continue reading “Cellular Reprogramming In Practice | Prof Vittorio Sebastiano Interview Series 2 Ep3” »