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Jan 13, 2021

Physicists Detect Tantalising Hints of a “Fundamentally New Form of Quantum Matter”

Posted by in categories: particle physics, quantum physics

Metals and insulators are the yin and yang of physics, their respective material properties strictly dictated by their electrons’ mobility — metals should conduct electrons freely, while insulators keep them in place.

So when physicists from Princeton University in the US found a quantum quirk of metals bouncing around inside an insulating compound, they were lost for an explanation.

We’ll need to wait on further studies to find out exactly what’s going on. But one tantalising possibility is that a previously unseen particle is at work, one that represents neutral ground in electron behaviour. They’re calling it a ‘neutral fermion’.

Jan 13, 2021

Our Improbable Existence Is No Evidence for a Multiverse

Posted by in category: cosmology

Experts in probability have spotted a logical flaw in theorists’ reasoning.

Jan 13, 2021

Parabiosis: the Dilution Solution?

Posted by in categories: biotech/medical, life extension

Summary: Scientists have long marveled at the rejuvenating effects of heterochronic parabiosis. When you mix the blood of a young mouse and an old mouse by joining their circulatory systems, the older animal recovers some features of youth, while the young animal becomes functionally older. While many have assumed that these effects were driven by the infusion of pro-youth factors from the young parabiont into the older one, an alternative “Dilution Solution” hypothesis is possible: that the young blood is instead diluting pro-aging factors from the old animal’s blood, as well as allowing the young animal’s livers and kidneys to filter out metabolic toxins through the young animals’ livers and kidneys.


In heterochronic parabiosis, joining the circulatory systems of young and old mice causes the older animal to recover some features of youth. The effect has been widely assumed to be driven by pro-youth factors in younger blood, but an alternative hypothesis is possible: that the procedure is instead diluting pro-aging factors in the older partner.

Jan 13, 2021

Researchers identify promising model for studying human aging

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

Aging research fans might like.

“In their work, Hamiliton’s team found that the Dunkin Hartley guinea pig was a good candidate for a muscle aging model due to the animal’s tendency to develop osteoarthritis (OA) at a young age.”


There are many components to aging, both mental and physical. When it comes to the infrastructure of the human body—the musculoskeletal system that includes muscles, bones, tendons and cartilage—age-associated decline is inevitable, and the rate of that decline increases the older we get. The loss of muscle function—and often muscle mass—is scientifically known as sarcopenia or dynapenia.

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Jan 13, 2021

Artificial Flesh

Posted by in categories: biological, biotech/medical, ethics, food, futurism, health, innovation, science, sustainability

Review: Meat Planet (2019) by Benjamin Aldes Wurgaft

In the words of the book’s author, Benjamin Aldes Wurgaft, Meat Planet: Artificial Flesh and the Future of Food (2019) is “not an attempt at prediction but rather a study of cultured meat as a special case of speculation on the future of food, and as a lens through which to view the predictions we make about how technology changes the world.” While not serving as some crystal ball to tell us the future of food, Wurgaft’s book certainly does serve as a kind of lens.

Our very appetites are questioned quite a bit in the book. Wondering about the ever-changing history of food, the author asks, “Will it be an effort to reproduce the industrial meat forms we know, albeit on a novel, and more ethical and sustainable, foundation?” Questioning why hamburgers are automatically the default goal, he points out cultured meat advocates should carefully consider “the question of which human appetite for meat, in historical terms, they wish to satisfy.”

Wurgaft’s question of “which human appetite” – past, present, or future – is an excellent one. If we use his book as a lens to observe other emerging technologies, the question extends well beyond our choices of food. It could even have direct implications for such endeavours as radical life extension. Will we, if we extend our lifetimes, be satisfactory to future people? We already know the kind of clash that persists between different generations, and the blame we often place on previous generations for current social ills, without there also being a group of people who simply refuse to die. We should be wary of basing our future on the present – of attempting to preserve present tastes as somehow immutable and deserving immortality. This may be a problem such futurists as Ray Kurzweil, author of The Singularity is Near (2005) need to respond to.

If we are to justify the singularity at which we or our appetites are immortalized, we should remember technology changes “morality’s horizon”, as Wurgaft observes. If, for example, a new technology arises that can entirely eliminate suffering, our choice to allow suffering is an immoral one. If further technologies then emerge that can eliminate not just suffering but death, it will become immoral on that day to permit someone’s natural death – at least to the extent it is like the crime of manslaughter. I argued in my own book that it will be immoral to withhold novel biotechnologies from impoverished countries, if we know such direct action will increase their economic independence or improve their health. Put simply, our inaction in a situation can become an immoral deed if we have the necessary tools to stop suffering.

Continue reading “Artificial Flesh” »

Jan 13, 2021

New Horizons spacecraft answers the question: How dark is space?

Posted by in category: satellites

How dark is the sky, and what does that tell us about the number of galaxies in the visible universe? Astronomers can estimate the total number of galaxies by counting everything visible in a Hubble deep field and then multiplying them by the total area of the sky. But other galaxies are too faint and distant to directly detect. Yet while we can’t count them, their light suffuses space with a feeble glow.

To measure that glow, astronomical satellites have to escape the inner solar system and its light pollution, caused by sunlight reflecting off dust. A team of scientists has used observations by NASA’s New Horizons mission to Pluto and the Kuiper Belt to determine the brightness of this cosmic optical background. Their result sets an upper limit to the abundance of faint, unresolved , showing that they only number in the hundreds of billions, not 2 trillion galaxies as previously believed.

How dark does space get? If you get away from city lights and look up, the sky between the stars appears very dark indeed. Above the Earth’s atmosphere outer space dims even further, fading to an inky pitch-black. And yet even there, space isn’t absolutely black. The universe has a suffused feeble glimmer from innumerable distant stars and galaxies.

Jan 13, 2021

SpaceX capsule to splash down from space just west of Tampa

Posted by in category: space travel

The capsule will bring back science experiments from the International Space Station.


Tampa will take part in some Florida space history Wednesday night as the SpaceX Dragon 2 will splash down from space just west of Tampa Bay.

Jan 13, 2021

Google reveals sophisticated Windows and Android hacking operation

Posted by in category: mobile phones

The attackers used a combination of Android, Chrome, and Windows vulnerabilities, including both zero-days and n-days exploits.

Jan 13, 2021

Dr Halima Benbouza — Leading Biotech Development In Algeria For Health, Agriculture and Conservation

Posted by in categories: bioengineering, biotech/medical, education, food, genetics, government, health

Dr. Halima Benbouza is an Algerian scientist in the field of agronomic sciences and biological engineering.

She received her doctorate in 2004 from the University Agro BioTech Gembloux, Belgium studying Plant Breeding and Genetics and was offered a postdoctoral position to work on a collaborative project with the Agricultural Research Service, United States Department of Agriculture in Stoneville, Mississippi.

Continue reading “Dr Halima Benbouza — Leading Biotech Development In Algeria For Health, Agriculture and Conservation” »

Jan 13, 2021

Flexible thermoelectric devices enable energy harvesting from human skin

Posted by in categories: energy, robotics/AI, wearables

A thermoelectric device is an energy conversion device that uses the voltage generated by the temperature difference between both ends of a material; it is capable of converting heat energy, such as waste heat from industrial sites, into electricity that can be used in daily life. Existing thermoelectric devices are rigid because they are composed of hard metal-based electrodes and semiconductors, hindering the full absorption of heat sources from uneven surfaces. Therefore, researchers have conducted recent studies on the development of flexible thermoelectric devices capable of generating energy in close contact with heat sources such as human skins and hot water pipes.

The Korea Institute of Science and Technology (KIST) announced that a collaborative research team led by Dr. Seungjun Chung from the Soft Hybrid Materials Research Center and Professor Yongtaek Hong from the Department of Electrical and Computer Engineering at Seoul National University (SNU, President OH Se-Jung) developed flexible with high power generation performance by maximizing flexibility and transfer efficiency. The research team also presented a mass-production plan through an automated process including a printing process.

The transfer efficiency of existing substrates used for research on flexible thermoelectric devices is low due to their very . Their heat absorption efficiency is also low due to lack of flexibility, forming a heat shield layer, e.g., air, when in contact with a heat source. To address this issue, organic-material-based thermoelectric devices with high flexibility have been under development, but their application on wearables is not easy because of its significantly lower performance compared to existing inorganic-material-based rigid thermoelectric devices.