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Oct 29, 2022

Astronomers find a doomed Earth-sized world around a violent star

Posted by in category: space

A group of astronomers studying the planet GJ 1252b found an answer, and it’s not pretty.


What if you placed an Earth-sized planet in a close orbit around an M dwarf star? It’s more than an academic question since M dwarfs are the most numerous stars we know.

Oct 29, 2022

AI-Driven Automation And Human-Driven Management Of The Business Of Data

Posted by in categories: business, robotics/AI

Managing data with AI-powered automation and data product managers.

Oct 29, 2022

Omega-3 fatty acid could boost IQ for preterm babies

Posted by in categories: biotech/medical, neuroscience

New research from SAHMRI has found a link between the omega-3 fatty acid known as docosahexaenoic acid (DHA) and increased IQ among children born prematurely.

Preterm children are more likely to have lower IQ scores and cognitive impairments compared with term-born children.

Dr. Jacqueline Gould, who led the study now published in the New England Journal of Medicine, says infants born at the earliest gestations are deprived of the natural supply of DHA that normally builds up in the brain during the last trimester of pregnancy.

Oct 29, 2022

Engineers light the way to nerve-operated prosthetics of the future

Posted by in categories: biotech/medical, cyborgs, neuroscience

Biomedical and electrical engineers at UNSW Sydney have developed a new way to measure neural activity using light—rather than electricity—which could lead to a complete reimagining of medical technologies like nerve-operated prosthetics and brain-machine interfaces.

Professor François Ladouceur, with UNSW’s School of Electrical Engineering and Telecommunications, says the multi-disciplinary team has just demonstrated in the lab what it proved theoretically shortly before the pandemic: that sensors built using liquid crystal and integrated optics technologies—dubbed “optrodes”—can register nerve impulses in a living animal body.

Not only do these optrodes perform just as well as conventional electrodes—that use electricity to detect a nerve impulse—but they also address “very thorny issues that competing technologies cannot address,” says Prof. Ladouceur.

Oct 29, 2022

Novel thermal phases of topological quantum matter in the lab

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

For the first time, a group of researchers from Universidad Complutense de Madrid, IBM, ETH Zurich, MIT and Harvard University have observed topological phases of matter of quantum states under the action of temperature or certain types of experimental imperfections. The experiment was conducted using quantum simulator at IBM.

Quantum simulators were first conjectured by the Nobel Prize laureate Richard Feynman in 1982. Ordinary classical computers are inefficient at simulating systems of interacting quantum particles These new simulators are genuinely quantum and can be controlled very precisely. They replicate other quantum systems that are harder to manipulate and whose physical properties remain very much unknown.

In an article published in the journal Quantum Information, the researchers describe using a with superconducting qubits at IBM to replicate materials known as topological insulators at finite temperature, and measure for the first time their topological quantum phases.

Oct 29, 2022

Breakthrough in CRISPR research may lead to more effective and safer gene editing

Posted by in categories: bioengineering, biotech/medical

10 years ago we saw a breakthrough in modern biology.

An American scientist discovered that manipulation of the Cas9 protein resulted in a gene technology worthy of a sci-fi film: CRISPR.

Think of it as a pair of molecular scissors capable of cutting and editing the DNA of humans, animals, plants, bacteria and viruses.

Oct 29, 2022

Dissociable rhythmic mechanisms enhance memory for conscious and nonconscious perceptual contents

Posted by in category: neuroscience

Understanding the neural mechanisms of conscious and unconscious experience is a major goal of fundamental and translational neuroscience. Here, we target the early visual cortex with a protocol of noninvasive, high-resolution alternating current stimulation while participants performed a delayed target–probe discrimination task and reveal dissociable mechanisms of mnemonic processing for conscious and unconscious perceptual contents. Entraining β-rhythms in bilateral visual areas preferentially enhanced short-term memory for seen information, whereas α-entrainment in the same region preferentially enhanced short-term memory for unseen information. The short-term memory improvements were frequency-specific and long-lasting. The results add a mechanistic foundation to existing theories of consciousness, call for revisions to these theories, and contribute to the development of nonpharmacological therapeutics for improving visual cortical processing.

Oct 29, 2022

Some People Who Appear to Be in a Coma May Actually Be Conscious

Posted by in category: neuroscience

Brain scans reveal that some people who can’t speak or move are aware of the world around them.

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Oct 29, 2022

Foundations of the Metaverse: The HTML for 3D Virtual Worlds

Posted by in category: futurism

Join this session to hear from a panel of distinguished technical leaders as they talk about Universal Scene Description (USD) as a standard for the 3D evo.

Oct 29, 2022

Architect Turns 9-Acre Barren Land into Unique Bamboo Village & Eco-Tourism Hub

Posted by in category: sustainability

Watch this video to see the beauty of Bashgram, a unique bamboo village located in Tripura, that aims to promote sustainability and eco-tourism, as well as the importance of bamboo in the local culture.

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