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Nov 7, 2019

Celebrating Two Women In Science — Marie Curie And Lise Meitner

Posted by in categories: chemistry, life extension, science

Both Marie Curie and Lise Meitner, the only two women to be immortalized on the Periodic Table, celebrate the same November 7 birthday. Here are more reasons why they’re remarkable.

Nov 7, 2019

This Intelligent Microrobot Bird Could Navigate Through Blood Stream And Kill Cancer Cells

Posted by in categories: biotech/medical, futurism

The future of microrobots!

Nov 7, 2019

10 Ways Humans Will Become Immortal by 2050

Posted by in categories: cryonics, life extension

From Cryonics To Living In Android Bodies here are 10 Ways Humans Will Become Immortal by 2050.

#Technology #Science #Immortal

Nov 7, 2019

Left-handed women’s quirk over sense of smell

Posted by in category: neuroscience

Some can smell normally despite missing the part of the brain which science says is crucial.

Nov 7, 2019

Building a Computer Like Your Brain

Posted by in categories: business, computing, mapping, neuroscience

Our brain has 86 billion neurons connected by 3 million kilometers of nerve fibers and The Human Brain Project is mapping it all. One of the key applications is neuromorphic computing — computers inspired by brain architecture that may one day be able to learn as we do.

#BloombergGiantLeap #Science #Technology

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Nov 7, 2019

Cosmos, Quantum and Consciousness: Is Science Doomed to Leave Some Questions Unanswered?

Posted by in categories: neuroscience, quantum physics, science

Physicists, philosophers debate whether research can ever solve certain mysteries of the universe—and the human mind.

Nov 7, 2019

Astronomers Have Found the Universe’s Missing Matter

Posted by in category: cosmology

Astronomers have finally found the last of the missing universe. It’s been hiding since the mid-1990s, when researchers decided to inventory all the “ordinary” matter in the cosmos—stars and planets and gas, anything made out of atomic parts. (This isn’t “dark matter,” which remains a wholly separate enigma.) They had a pretty good idea of how much should be out there, based on theoretical studies of how matter was created during the Big Bang. Studies of the cosmic microwave background (CMB)—the leftover light from the Big Bang—would confirm these initial estimates.

So they added up all the matter they could see—stars and gas clouds and the like, all the so-called baryons. They were able to account for only about 10 percent of what there should be. And when they considered that ordinary matter makes up only 15 percent of all matter in the universe—dark matter makes up the rest—they had only inventoried a mere 1.5 percent of all matter in the universe.

Now, in a series of three recent papers, astronomers have identified the final chunks of all the ordinary matter in the universe. (They are still deeply perplexed as to what makes up dark matter.) And despite the fact that it took so long to identify it all, researchers spotted it right where they had expected it to be all along: in extensive tendrils of hot gas that span the otherwise empty chasms between galaxies, more properly known as the warm-hot intergalactic medium, or WHIM.

Nov 6, 2019

Theoretical spin battery could see magnet powered cars

Posted by in categories: biotech/medical, chemistry, computing, nanotechnology, sustainability

Circa 2009


March 19, 2009 Researchers at the University of Miami and at the Universities of Tokyo and Tohoku, Japan, have been able to prove the existence of a “spin battery,” that could have significant applications including much faster, less expensive and use less energy consuming computer hard drives with no moving parts, and could even be developed to power cars.

A “spin battery” is “charged” by applying a large magnetic field to nano-magnets in a device called a magnetic tunnel junction (MTJ). Like a toy car, the spin battery is “wound up” by applying a large magnetic field — no chemistry involved.

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Nov 6, 2019

Entering the field of zeptosecond measurement

Posted by in categories: particle physics, quantum physics

Circa 2016


Laser physicists in Munich have measured a photoionization — in which an electron exits a helium atom after excitation by light — for the first time with zeptosecond precision. A zeptosecond is a trillionth of a billionth of a second (10^−21 seconds). This is the greatest accuracy of time determination ever achieved, as well as the first absolute determination of the timescale of photoionization.

If light hits the two electrons of a helium atom, one must be incredibly fast to observe what occurs. Besides the ultra-short periods in which changes take place, quantum mechanics also comes into play. Laser physicists at the Max Planck Institute of Quantum Optics (MPQ), the Technical University of Munich (TUM) and the Ludwig Maximilians University (LMU) Munich have now measured such an event for the first time with zeptosecond precision.

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Nov 6, 2019

Magnetic freezing of confined water

Posted by in category: nanotechnology

We report results from molecular dynamic simulations of the freezing transition of liquid water in the nanoscale hydrophobic confinement under the influence of a homogeneous external magnetic field…