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Apr 15, 2019

Scientists propose putting nanobots in our bodies to create ‘global superbrain’

Posted by in categories: biotech/medical, internet, nanotechnology, robotics/AI

A team has proposed using nanobots to create the ‘internet of thoughts’, where instant knowledge could be downloaded just by thinking it.

An international team of scientists led by members of UC Berkeley and the US Institute for Molecular Manufacturing predicts that exponential progress in nanotechnology, nanomedicine, artificial intelligence (AI) and computation will lead this century to the development of a human ‘brain-cloud interface’ (B-CI).

Writing in Frontiers in Neuroscience, the team said that a B-CI would connect neurons and synapses in the brain to vast cloud computing networks in real time.

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Apr 15, 2019

The discrete-time physics hiding inside our continuous-time world

Posted by in categories: evolution, finance, physics, space

Scientists believe that time is continuous, not discrete—roughly speaking, they believe that it does not progress in “chunks,” but rather “flows,” smoothly and continuously. So they often model the dynamics of physical systems as continuous-time “Markov processes,” named after mathematician Andrey Markov. Indeed, scientists have used these processes to investigate a range of real-world processes from folding proteins, to evolving ecosystems, to shifting financial markets, with astonishing success.

However, invariably a scientist can only observe the state of a system at discrete times, separated by some gap, rather than continually. For example, a stock market analyst might repeatedly observe how the state of the market at the beginning of one day is related to the state of the market at the beginning of the next day, building up a conditional probability distribution of what the state of the second day is given the state at the first day.

In a pair of papers, one appearing in this week’s Nature Communications and one appearing recently in the New Journal of Physics, physicists at the Santa Fe Institute and MIT have shown that in order for such two– dynamics over a set of “visible states” to arise from a continuous-time Markov process, that Markov process must actually unfold over a larger space, one that includes hidden states in addition to the visible ones. They further prove that the evolution between such a pair of times must proceed in a finite number of “hidden timesteps”, subdividing the interval between those two times. (Strictly speaking, this proof holds whenever that evolution from the earlier time to the later time is noise-free—see paper for technical details.)

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Apr 15, 2019

Magnetic Field Record Set With a Bang: 1,200 Tesla

Posted by in categories: biotech/medical, nanotechnology

A field 400 times as strong as an MRI should reveal new physics of nanoscale materials.

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Apr 15, 2019

What Would it Take for a Yottawatt Civilization

Posted by in category: futurism

Circa 2010


There is a new website yottawatts from Thorium, which prompted this post to answer how in general to get yottawatts from fission, fusion or solar

Here are the units prefix definitions from wikipedia.

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Apr 15, 2019

Diabetes drug may prevent, slow kidney disease, study finds

Posted by in category: biotech/medical

Invokana, a drug that’s used to help control blood sugar in people with diabetes, may also help thousands of people who require dialysis.

A patient undergoes dialysis at a clinic in Sacramento, California, on Sept. 24, 2018. Rich Pedroncelli / AP file.

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Apr 15, 2019

Quantum entangled batteries could be the perfect power source

Posted by in categories: energy, quantum physics

Two European theoretical physicists have shown that it may be possible to build a near-perfect, entangled quantum battery. In the future, such quantum batteries might power the tiniest of devices — or provide power storage that is much more efficient than state-of-the-art lithium-ion battery packs.

To understand the concept of quantum batteries, we need to start (unsurprisingly) at a very low level. Today, most devices and machines that you interact with are governed by the rules of classical mechanics (Newton’s laws, friction, and so on). Classical mechanics are very accurate for larger systems, but they fall apart as we begin to analyze microscopic (atomic and sub-atomic) systems — which led to a new set of laws and theories that describe quantum mechanics.

In recent years, as our ability to observe and manipulate quantum systems has grown — thanks to machines such as the Large Hadron Collider and scanning tunneling electron microscopes — physicists have started theorizing about devices and machines that use quantum mechanics, rather than classical. In theory, these devices could be much smaller, more efficient, or simply act in rather unsurprising ways. In this case, Robert Alicki of the University of Gdansk in Poland, and Mark Fannes of the University of Leuven in Belgium, have defined a battery that stores and releases energy using quantum mechanics.

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Apr 15, 2019

Scientists Make a Breakthrough in Teleportation

Posted by in category: innovation

Circa 2017


Chinese scientists accomplish the feat of teleporting a photon to a satellite hundreds of miles above Earth.

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Apr 15, 2019

Israeli scientists unveil world’s first 3D-printed heart with human tissue

Posted by in category: 3D printing

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Apr 15, 2019

Concept unveiled for village on the moon

Posted by in category: space

The concept design has been unveiled for Moon Village, the first permanent human settlement on the lunar surface.

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Apr 15, 2019

An Interview with Dr. Steven Braithwaite of Alkahest

Posted by in categories: biotech/medical, life extension

We have known since the 19th century that young blood has surprising curative and rejuvenation abilities. It’s quite strange, but it happens to be true. In recent years, scientific efforts to understand what it is about young blood that causes rejuvenation have ramped up.

We now know that young and old mice with surgically connected circulatory systems will experience altered aging: the young mouse will prematurely grow old, and the old mouse will, in many cases, miraculously grow young. This is known as heterochronic parabiosis, and it is a large source of the legitimate excitement about the potential of young plasma to lead to human rejuvenation [1].

The challenge, of course, is how to achieve these benefits in more acceptable and less disturbing ways.

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