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Apr 5, 2020

Why AI Is Transforming The Banking Industry

Posted by in categories: finance, robotics/AI

Large banks are industry leaders adopting AI to stay ahead of competition, provide greater customer service to customers, more relevant services and offerings, as well as helping transform many back end processes. How is USAA adopting AI to help?

Apr 5, 2020

Astronomers spot never-before-seen gravitational wave source from binary white dwarf stars

Posted by in categories: energy, physics, space

Astronomers have detected two stellar corpses whirling around each other, and they might be producing gravitational waves.

White dwarf stars are what become of stars like our sun after they run out of fuel and turn into leftover hot cores. For many years, researchers have predicted that there should be binary, or two-object, systems made up of white dwarf stars. According to general relativity, two such masses orbiting each other should emit energy in the form of gravitational waves, which are ripples or disturbances in the fabric of spacetime.

Apr 5, 2020

Ex-astronaut launches training kit for coping with self-isolation

Posted by in category: space

Programme covers conflict resolution, mood management and self-assessment for stress.

Apr 5, 2020

Why do some young people die of coronavirus?

Posted by in category: biotech/medical

Covid-19 hits the old hardest, but young people are dying too. Scientists say it may be down to genes or ‘viral load’.

Apr 5, 2020

Real life ‘shrink ray’ can reduce 3D structures

Posted by in categories: biotech/medical, quantum physics

Could used for anything to reduce size just like an ant man suit :3.


Scientists can put all kinds of useful materials in the polymer before they shrink it such as metals, quantum dots and DNA. Pictured is the machine used to shrink objects.

The polyacrylate forms the scaffold over which other materials can be attached.

Continue reading “Real life ‘shrink ray’ can reduce 3D structures” »

Apr 5, 2020

Extremely small magnetic nanostructures with invisibility cloak imaged

Posted by in categories: computing, nanotechnology, particle physics, space

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In novel concepts of magnetic data storage, it is intended to send small magnetic bits back and forth in a chip structure, store them densely packed and read them out later. The magnetic stray field generates problems when trying to generate particularly tiny bits. Now, researchers at the Max Born Institute (MBI), the Massachusetts Institute of Technology (MIT) and DESY were able to put an “invisibility cloak” over the magnetic structures. In this fashion, the magnetic stray field can be reduced in a fashion allowing for small yet mobile bits. The results were published in Nature Nanotechnology.

For physicists, magnetism is intimately coupled to rotating motion of electrons in atoms. Orbiting around the atomic nucleus as well as around their own axis, electrons generate the magnetic moment of the atom. The magnetic stray field associated with that magnetic moment is the property we know from e.g. a bar magnet we use to fix notes on pinboard. It is also the magnetic stray field that is used to read the information from a magnetic hard disk drive. In today’s hard disks, a single magnetic bit has a size of about 15 × 45 nanometer, about 1,000,000,000,000 of those would fit on a stamp.

One vision for a novel concept to store data magnetically is to send the magnetic bits back and forth in a memory chip via current pulses, in order to store them at a suitable place in the chip and retrieve them later. Here, the magnetic stray field is a bit of a curse, as it prevents that the bits can be made smaller for even denser packing of the information. On the other hand, the magnetic moment underlying the stray field is required to be able to move the structures around.

Apr 5, 2020

Quantum biology revisited

Posted by in categories: biological, engineering, quantum physics

This could lead to biological teleportation. :3.


Photosynthesis is a highly optimized process from which valuable lessons can be learned about the operating principles in nature. Its primary steps involve energy transport operating near theoretical quantum limits in efficiency. Recently, extensive research was motivated by the hypothesis that nature used quantum coherences to direct energy transfer. This body of work, a cornerstone for the field of quantum biology, rests on the interpretation of small-amplitude oscillations in two-dimensional electronic spectra of photosynthetic complexes. This Review discusses recent work reexamining these claims and demonstrates that interexciton coherences are too short lived to have any functional significance in photosynthetic energy transfer. Instead, the observed long-lived coherences originate from impulsively excited vibrations, generally observed in femtosecond spectroscopy. These efforts, collectively, lead to a more detailed understanding of the quantum aspects of dissipation. Nature, rather than trying to avoid dissipation, exploits it via engineering of exciton-bath interaction to create efficient energy flow.

Over the past decade, the field of quantum biology has seen an enormous increase in activity, with detailed studies of phenomena ranging from the primary processes in vision and photosynthesis to avian navigation (1, 2). In principle, the study of quantum effects in complex biological systems has a history stretching back to the early years of quantum mechanics (3); however, only recently has it truly taken center stage as a scientifically testable concept. While the overall discussion has wide-ranging ramifications, for the purposes of this Review, we will focus on the subfield where the debate is most amenable to direct experimental tests of purported quantum effects—photosynthetic light harvesting.

Continue reading “Quantum biology revisited” »

Apr 5, 2020

HIV drug showing signs of successfully treating coronavirus patients

Posted by in category: biotech/medical

A drug used to treat HIV and cancer patients has shown success in treating some of the most severe coronavirus patients and was just cleared by the U.S. Food and Drug Administration to start a phase two clinical trial. Much of the work behind the drug is happening in Washington state.

Apr 5, 2020

These are the top 5 most iconic Apple Inc. products of all time

Posted by in category: futurism

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Apr 5, 2020

Will we all drive electric cars one day?

Posted by in categories: sustainability, transportation

http://wef.ch/1MaNk4I