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Dec 30, 2020

LA Plans to Issue Digital “Passports” With Coronavirus Vaccines

Posted by in categories: biotech/medical, mobile phones

Experts first floated immunity passports as something to give people who had recovered from COVID-19, but the idea was laden with ethical and logistical concerns — especially since scientists weren’t sure how long coronavirus antibodies lasted after a patient recovered.

But instead of the immune system’s response to COVID-19, this new system built by the medical testing platform startup Healthvana would show whether someone had been vaccinated, likely a more robust indicator that they’re no longer infectious.

After vaccination, you’d be able to take out your smartphone and show you’d been inoculated “to prove to airlines, to prove to schools, to prove to whoever needs it,” Healthvana CEO Ramin Bastani told Bloomberg.

Dec 30, 2020

Aerolysin nanopores decode digital information stored in tailored macromolecular analytes

Posted by in categories: bioengineering, biological, chemistry, computing, encryption, genetics, information science

Digital data storage is a growing need for our society and finding alternative solutions than those based on silicon or magnetic tapes is a challenge in the era of “big data.” The recent development of polymers that can store information at the molecular level has opened up new opportunities for ultrahigh density data storage, long-term archival, anticounterfeiting systems, and molecular cryptography. However, synthetic informational polymers are so far only deciphered by tandem mass spectrometry. In comparison, nanopore technology can be faster, cheaper, nondestructive and provide detection at the single-molecule level; moreover, it can be massively parallelized and miniaturized in portable devices. Here, we demonstrate the ability of engineered aerolysin nanopores to accurately read, with single-bit resolution, the digital information encoded in tailored informational polymers alone and in mixed samples, without compromising information density. These findings open promising possibilities to develop writing-reading technologies to process digital data using a biological-inspired platform.

DNA has evolved to store genetic information in living systems; therefore, it was naturally proposed to be similarly used as a support for data storage (1–3), given its high-information density and long-term storage with respect to existing technologies based on silicon and magnetic tapes. Alternatively, synthetic informational polymers have also been described (5–9) as a promising approach allowing digital storage. In these polymers, information is stored in a controlled monomer sequence, a strategy that is also used by nature in genetic material. In both cases, single-molecule data writing is achieved mainly by stepwise chemical synthesis (3, 10, 11), although enzymatic approaches have also been reported (12). While most of the progress in this area has been made with DNA, which was an obvious starting choice, the molecular structure of DNA is set by biological function, and therefore, there is little space for optimization and innovation.

Dec 30, 2020

California nurse tests positive over a week after receiving Pfizer COVID-19 vaccine: ABC

Posted by in category: biotech/medical

Matthew W., a nurse at two different local hospitals, said in a Facebook post on December 18 that he had received the Pfizer vaccine, telling the ABC News affiliate that his arm was sore for a day but that he had suffered no other side-effects. Six days later on Christmas Eve, he became sick after working a shift in the COVID-19 unit, the report added. He got the chills and later came down with muscle aches and fatigue. He went to a drive-up hospital testing site and tested positive for COVID-19 the day after Christmas, the report said.


Healthcare & Pharma.

Dec 30, 2020

Making Money in a Futuristic World (Jobs and Future Business Ideas)

Posted by in categories: business, economics, Elon Musk, employment, physics, robotics/AI, space

In the not so distant future you could be making money from home by controlling robots, robots that are in another country. Or there will be products, such as a self driving Tesla car, that can go out and earn money on their own.

This video takes a look at the futuristic ways people will be earning money. From telepresence jobs and future business ideas, to new space businesses, and even how people will be storing their money — moving away from cash and credit cards to using chips that are in their bodies.

Continue reading “Making Money in a Futuristic World (Jobs and Future Business Ideas)” »

Dec 30, 2020

Looking Back At 2020 — Tesla/SpaceX/Starlink/5G/mRNA + more

Posted by in categories: biotech/medical, internet, space travel

Are you fed up with all the negativity?

Between Tesla, SpaceX (Starship & Starlink), 5G, mRNA vaccines and more, 2020 has been an eventful year full of breakthroughs all set to make our lives better, and ushering in a sci-fi future quicker than ever…so I brought them all together in one video to celebrate the great people working tirelessly to make our future better.

Continue reading “Looking Back At 2020 — Tesla/SpaceX/Starlink/5G/mRNA + more” »

Dec 30, 2020

Three astronauts assigned to Crew Dragon mission in late 2021

Posted by in category: space travel

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Rookie NASA astronaut Raja Chari — a former U.S. Air Force fighter pilot — veteran physician-astronaut Tom Marshburn, and European Space Agency astronaut Matthias Maurer have been assigned to fly to the International Space Station on a SpaceX Crew Dragon spaceship in the fall of 2021.

A fourth crew member will be added to the mission at a later date, following a review by NASA and its international partners, the U.S. space agency said in a Dec. 14 announcement.

Continue reading “Three astronauts assigned to Crew Dragon mission in late 2021” »

Dec 29, 2020

All Dark Matter in the Universe Could Be Primordial Black Holes – Formed From the Collapse of Baby Universes Soon After the Big Bang

Posted by in categories: cosmology, physics

The Kavli Institute for the Physics and Mathematics of the Universe (Kavli IPMU) is home to many interdisciplinary projects which benefit from the synergy of a wide range of expertise available at the institute. One such project is the study of black holes that could have formed in the early universe, before stars and galaxies were born.

Such primordial black holes (PBHs) could account for all or part of dark matter, be responsible for some of the observed gravitational waves signals, and seed supermassive black holes found in the center of our Galaxy and other galaxies. They could also play a role in the synthesis of heavy elements when they collide with neutron stars and destroy them, releasing neutron-rich material.

In particular, there is an exciting possibility that the mysterious dark matter, which accounts for most of the matter in the universe, is composed of primordial black holes. The 2020 Nobel Prize in physics was awarded to a theorist, Roger Penrose, and two astronomers, Reinhard Genzel and Andrea Ghez, for their discoveries that confirmed the existence of black holes. Since black holes are known to exist in nature, they make a very appealing candidate for dark matter.

Dec 29, 2020

Boston Dynamics Robots Dance To Postmodern Jukebox

Posted by in categories: futurism, robotics/AI

Nothing to see here-just our future robot overlords dancing to retro PMJ tracks before they take over the world.

Dec 29, 2020

Sí, los robots de Boston Dynamics ya bailan mejor que muchos humanos

Posted by in category: robotics/AI

En un video, Boston Dynamics presumió el avance que ha alcanzado con sus robots al ejecutar tareas, antes limitadas a los humanos.

Dec 29, 2020

Important milestone in the creation of a quantum computer

Posted by in categories: computing, mobile phones, quantum physics

Quantum computer: One of the obstacles for progress in the quest for a working quantum computer has been that the working devices that go into a quantum computer and perform the actual calculations, the qubits, have hitherto been made by universities and in small numbers. But in recent years, a pan-European collaboration, in partnership with French microelectronics leader CEA-Leti, has been exploring everyday transistors—that are present in billions in all our mobile phones—for their use as qubits. The French company Leti makes giant wafers full of devices, and, after measuring, researchers at the Niels Bohr Institute, University of Copenhagen, have found these industrially produced devices to be suitable as a qubit platform capable of moving to the second dimension, a significant step for a working quantum computer. The result is now published in Nature Communications.

Quantum dots in two dimensional array is a leap ahead

One of the key features of the devices is the two-dimensional array of quantum dots. Or more precisely, a two by two lattice of quantum dots. “What we have shown is that we can realize single electron control in every single one of these quantum dots. This is very important for the development of a , because one of the possible ways of making qubits is to use the spin of a single electron. So reaching this goal of controlling the single electrons and doing it in a 2-D array of was very important for us”, says Fabio Ansaloni, former Ph.D. student, now postdoc at center for Quantum Devices, NBI.