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May 29, 2020

TinyML is giving hardware new life

Posted by in category: neuroscience

Today and going forward, billions of tiny devices will act as an extension of our brains, feelings and emotions as a natural extension of everyday life.

May 29, 2020

Here’s everything you need to know about the SpaceX and NASA partnership launch

Posted by in category: space travel

A SpaceX Crew Dragon space capsule is attempting to carry two NASA astronauts to the International Space Station for a historic mission.

May 29, 2020

Solution to century-old math problem could predict transmission of infectious diseases

Posted by in categories: biotech/medical, information science, mathematics

A Bristol academic has achieved a milestone in statistical/mathematical physics by solving a 100-year-old physics problem—the discrete diffusion equation in finite space.

May 29, 2020

Quantum-Resistant Cryptography: Our Best Defense Against An Impending Quantum Apocalypse

Posted by in categories: computing, encryption, information science, quantum physics, security

As far back as 2015, the National Institute of Standards and Technology (NIST) began asking encryption experts to submit their candidate algorithms for testing against quantum computing’s expected capabilities — so this is an issue that has already been front of mind for security professionals and organizations. But even with an organization like NIST leading the way, working through all those algorithms to judge their suitability to the task will take time. Thankfully, others within the scientific community have also risen to the challenge and joined in the research.

It will take years for a consensus to coalesce around the most suitable algorithms. That’s similar to the amount of time it took ECC encryption to gain mainstream acceptance, which seems like a fair comparison. The good news is that such a timeframe still should leave the opportunity to arrive at — and widely deploy — quantum-resistant cryptography before quantum computers capable of sustaining the number of qubits necessary to seriously threaten RSA and ECC encryption become available to potential attackers.

The ongoing development of quantum-resistant encryption will be fascinating to watch, and security professionals will be sure to keep a close eye on which algorithms and encryption strategies ultimately prove most effective. The world of encryption is changing more quickly than ever, and it has never been more important for the organizations dependent on that encryption to ensure that their partners are staying ahead of the curve.

May 29, 2020

Used Electric Car Batteries Could Be Recycled into New Life as Energy Storage for Solar Farms, Says New Study

Posted by in categories: energy, sustainability, transportation

The MIT researchers say that the average used car battery could provide up to a decade of backup storage for solar grids.

May 29, 2020

Do you have the reflexes of an 18 year old?

Posted by in category: futurism

I’ve just been reading about reaction time and intelligence. That got me wondering if IQ could be calculated by comparing reaction time age to chronological age at https://www.justpark.com/creative/reaction-time-test/. The average reaction time age I got, with 10 attempts, was 38(rounded to nearest whole number). My actual age is 63.


Take this simple test, and we’ll gauge your age based on your reaction time.

May 29, 2020

Whirling, glassy magnets found to be new state of matter

Posted by in categories: particle physics, robotics/AI

Most of us are familiar with the four classical states of matter – solid, liquid, gas and plasma – but there’s a whole world of exotic states out there. Now, physicists at Radboud and Uppsala Universities have identified a new one named “self-induced spin glass,” which could be used to build new artificial intelligence platforms.

Magnetism usually arises when the electrons in the atoms of a material all spin in the same direction. But in a spin glass, the atomic magnets have no order, all spinning in random directions. The “glass” part of the name comes from the similarities to how atoms are arranged amorphously in a piece of regular old glass.

So far spin glasses have only been found in certain alloys, but now, researchers have discovered that the state occurs naturally in the pure element neodymium. To differentiate it from the alloy version, they’ve called the new state self-induced spin glass.

May 29, 2020

New ‘Whirling’ State of Matter Discovered: Self-Induced Spin Glass

Posted by in categories: chemistry, physics, robotics/AI

The strongest permanent magnets today contain a mix of the elements neodymium and iron. However, neodymium on its own does not behave like any known magnet, confounding researchers for more than half a century. Physicists at Radboud University and Uppsala University have shown that neodymium behaves like a so-called ‘self-induced spin glass,’ meaning that it is composed of a rippled sea of many tiny whirling magnets circulating at different speeds and constantly evolving over time. Understanding this new type of magnetic behavior refines our understanding of elements on the periodic table and eventually could pave the way for new materials for artificial intelligence. The results will be published in Science on May 29, 2020.

“In a jar of honey, you may think that the once clear areas that turned milky yellow have gone bad. But rather, the jar of honey starts to crystallize. That’s how you could perceive the ‘aging’ process in neodymium.” Alexander Khajetoorians, professor in Scanning probe microscopy, together with professor Mikhail Katsnelson and assistant professor Daniel Wegner, found that the material neodymium behaves in a complex magnetic way that no one ever saw before in an element on the periodic table.

May 29, 2020

Anyons bunch together in a 2D conductor

Posted by in categories: nanotechnology, particle physics, quantum physics, space

Anyons – the particle-like collective excitations that can exist in some 2D materials – tend to bunch together in a two-dimensional conductor. This behaviour, which has now been observed by physicists at the Laboratory of Physics of the ENS (LPENS) and the Center for Nanoscience and Nanotechnologies (C2N) in Paris, France, is completely different to that of electrons, and experimental evidence for it is important both for fundamental physics and for the potential future development of devices based on these exotic quasiparticles.

The everyday three-dimensional world contains two types of elementary particles: fermions and bosons. Fermions, such as electrons, obey the Pauli exclusion principle, meaning that no two fermions can ever occupy the same quantum state. This tendency to flee from each other is at the heart of a wide range of phenomena, including the electronic structure of atoms, the stability of neutron stars and the difference between metals (which conduct electric current) and insulators (which don’t). Bosons such as photons, on the other hand, tend to bunch together – a gregarious behaviour that gives rise to superfluid and superconducting behaviours when many bosons exist in the same quantum state.

Within the framework of quantum mechanics, fermions also differ from bosons in that they have antisymmetric wavefunctions – meaning that a minus sign (that is, a phase φ equal to π) is introduced whenever two fermions are exchanged. Bosons, in contrast, have symmetric wavefunctions that remain the same when two bosons are exchanged (φ=0).

May 29, 2020

Agricultural Drone Speeds Chinese Rice Seeding

Posted by in categories: drones, food, sustainability

One of China’s largest agricultural drone companies is helping to overhaul the rice-farming industry.

XAG recently launched a rice-seeding demonstration of seeding via drone at Happy Farms, an agricultural park in Guangdong province.