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Jul 23, 2021

Preclinical study finds success in reversing age-related memory loss

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

“What is exciting about this is that although our study was only in mice, the same mechanism should operate in humans – the molecules and structures in the human brain are the same as those in rodents,” says Fawcett. “This suggests that it may be possible to prevent humans from developing memory loss in old age.”


An intriguing new study from researchers in the United Kingdom is proposing an innovative method to treat age-related memory loss. The preclinical research shows memory decline in aging mice can be reversed by manipulating the composition of structures in the brain known as perineuronal nets.

Perineuronal nets (PNNs) are structures in the brain that envelop certain subsets of neurons, helping stabilize synaptic activity. They essentially put the brakes on the neuroplasticity seen in the first few years of life.

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Jul 23, 2021

Intel’s new NUC comes with 11th gen CPUs and space for a full-size graphics card

Posted by in categories: computing, space

GPUs up to 12-inches in size are supported.


Intel has revealed its new NUC 11 Extreme, which features its 11th generation CPUs and enough space for a full-size graphics card. It’s a miniature computer that should have enough horsepower to handle modern AAA games.

Jul 23, 2021

Silicon Who? Researchers Develop Arm Microprocessor Built out of Plastic

Posted by in categories: internet, materials

Truly bendable devices pave the way for the Internet of Everything.


Researchers have shown that it is possible to use plastics to create a working Arm microprocessor, creating a new world for truly flexible electronics spanning multiple sectors.

Jul 23, 2021

An autonomous system to assemble reconfigurable robotic structures in space

Posted by in categories: robotics/AI, space travel

Large space structures, such as telescopes and spacecraft, should ideally be assembled directly in space, as they are difficult or impossible to launch from Earth as a single piece. In several cases, however, assembling these technologies manually in space is either highly expensive or unfeasible.

In recent years, roboticists have thus been trying to develop systems that could be used to automatically assemble structures in . To simplify this , space structures could have a modular design, which essentially means that they are comprised of different building blocks or modules that can be shifted to create different shapes or forms.

Researchers at the German Aerospace Center (DLR) and Technische Universität München (TUM) have recently developed an autonomous planner that could be used to assemble reconfigurable structures directly in space. This system, introduced in a paper presented at the 2021 IEEE Aerospace Conference, could allow aerospace engineers and astronauts to assemble large structures in space and adapt them for specific use cases, reconfiguring them when necessary.

Jul 23, 2021

Nature has learnt how to eat our plastic!

Posted by in categories: food, genetics, neuroscience, sustainability

Nature always finds a way…so they say! But it looks like it may actually be true in the case of our global plastic waste dilemma. Genetic mutations have been discovered in specific natural bacteria that enable them to break the polymer chains of certain plastics. Where have we found these bacteria? Well…in plastic recycling dumps of course. So, gloves and masks on everyone. We’re going in!

Video Transcripts available at our website.
http://www.justhaveathink.com.

Continue reading “Nature has learnt how to eat our plastic!” »

Jul 23, 2021

Putting the power of AlphaFold into the world’s hands

Posted by in category: futurism

In partnership with EMBL-EBI, we’re incredibly proud to be launching the AlphaFold Protein Structure Database.

Jul 23, 2021

Surrey builds AI to find anti-ageing chemical compounds

Posted by in categories: chemistry, life extension, robotics/AI

The University of Surrey has built an artificial intelligence (AI) model that identifies chemical compounds that promote healthy aging—paving the way towards pharmaceutical innovations that extend a person’s lifespan.

Jul 23, 2021

Spot Collects Data and Senses Radiation in Nuclear Environments

Posted by in category: futurism

Our customers are putting Spot to work in nuclear environments, increasing safety and efficiency at their their electrical production facilities. Learn how thre… See More.


Spot is going to work in nuclear environments, increasing the safety, efficiency, and cost-effectiveness of their electrical production facilities.

Jul 23, 2021

Autonomous flight algorithm beats ‘world-class’ human drone racing pilots [video]

Posted by in categories: drones, information science, robotics/AI

There are many reasons for drones to be quick. The professional drone racing circuit aside, speed bodes well when you are searching for survivors on a disaster site, or delivering cargo, or even inspecting critical infrastructure. But how do you get something done in the shortest possible time with limited battery life when you have to navigate through obstacles, changing speeds, and altitude? You use an algorithm.

Jul 23, 2021

Antimatter from laser pincers

Posted by in categories: cosmology, particle physics

In the depths of space, there are celestial bodies where extreme conditions prevail: Rapidly rotating neutron stars generate super-strong magnetic fields. And black holes, with their enormous gravitational pull, can cause huge, energetic jets of matter to shoot out into space. An international physics team with the participation of the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) has now proposed a new concept that could allow some of these extreme processes to be studied in the laboratory in the future: A special setup of two high-intensity laser beams could create conditions similar to those found near neutron stars. In the discovered process, an antimatter jet is generated and accelerated very efficiently. The experts present their concept in the journal Communications Physics.

The basis of the new concept is a tiny block of plastic, crisscrossed by micrometer-fine channels. It acts as a target for two lasers. These simultaneously fire ultra-strong pulses at the block, one from the right, the other from the left — the block is literally taken by laser pincers. “When the laser pulses penetrate the sample, each of them accelerates a cloud of extremely fast electrons,” explains HZDR physicist Toma Toncian. “These two electron clouds then race toward each other with full force, interacting with the laser propagating in the opposite direction.” The following collision is so violent that it produces an extremely large number of gamma quanta — light particles with an energy even higher than that of X-rays.

The swarm of gamma quanta is so dense that the light particles inevitably collide with each other. And then something crazy happens: According to Einstein’s famous formula E=mc2, light energy can transform into matter. In this case, mainly electron-positron pairs should be created. Positrons are the antiparticles of electrons. What makes this process special is that “very strong magnetic fields accompany it,” describes project leader Alexey Arefiev, a physicist at the University of California at San Diego. “These magnetic fields can focus the positrons into a beam and accelerate them strongly.” In numbers: Over a distance of just 50 micrometers, the particles should reach an energy of one gigaelectronvolt (GeV) — a size that usually requires a full-grown particle accelerator.