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Dec 10, 2016
Nanogenerator Harvests Swipes To Power LCD Screens
Posted by Karen Hurst in categories: energy, materials
https://youtube.com/watch?v=_-kkkNdbils
Harvesting human energy into devices.
Engineers find an alternate route toward self-powered devices with foldable material.
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Dec 10, 2016
Quantum leaps needed for new computer approach
Posted by Karen Hurst in categories: computing, finance, government, military, quantum physics
Glad that the author is highlighting the need for investment; however, the US government has had a quantum network since 1991. Wall Street, various overseas banks, ISPs, etc. well over a year to 2 years ago. And, tech has invested in QC for a decade or longer. So, the article raises the need for investing in QC; however, the investing is no longer experimental as it is now about the daily usage of this technology as well as planning for technical transformation that is coming in the next 5 to 7 years.
Researchers led by Lockheed Martin and IBM are pushing quantum computing prototypes and military applications.
Dec 10, 2016
Further Improvement of Qubit Lifetime for Quantum Computers
Posted by Karen Hurst in categories: computing, quantum physics
An international team of scientists has succeeded in making further improvements to the lifetime of superconducting quantum circuits. An important prerequisite for the realization of high-performance quantum computers is that the stored data should remain intact for as long as possible. The researchers, including Jülich physicist Dr. Gianluigi Catelani, have developed and tested a technique that removes unpaired electrons from the circuits. These are known to shorten the qubit lifetime (Science, DOI: 10.1126/science.aah5844).
Quantum computers could one day achieve significantly higher computing speeds than conventional digital computers in performing certain types of tasks. Superconducting circuits belong to the most promising candidates for implementing quantum bits, known as qubits, with which quantum computers can store and process information. The high error rates associated with previously available qubits have up to now limited the size and efficiency of quantum computers. Dr. Gianluigi Catelani of the Peter Grünberg Institute (PGI-2) in Jülich, together with his colleagues has now found a way to prolong the time in which the superconducting circuits are able to store a “0” or a “1” without errors. Beside Catelani, the team comprises researchers working in the USA (Massachusetts Institute of Technology, Lincoln Laboratory, and the University of California, Berkeley), Japan (RIKEN), and Sweden (Chalmers University of Technology).
When superconducting materials are cooled below a material-specific critical temperature, electrons come together to form pairs; then current can flow without resistance. However, so far it has not been possible to build superconducting circuits in which all electrons bundle together. Single electrons remain unpaired and are unable to flow without resistance. Due to these so-called quasiparticles, energy is lost and this limits the length of time that the circuits can store data.
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Dec 10, 2016
Extremely Rare Quantum Spin Liquid Observed In Crystal Point
Posted by Karen Hurst in categories: particle physics, quantum physics
https://youtube.com/watch?v=sG8oUPMWxkg
Quantum spin liquid, a very rare state of matter, has been observed in a new crystal especially designed with the hopes of using its unique quantum properties.
The crystal, an ytterbium compound with the formula YbMgGaO4, was first synthesized by Chinese scientists for the first time in 2015. Now, in a new study published in the journal Nature, researchers from the United States suggest that the new material can produce a quantum spin liquid when frozen to temperatures near absolute zero. At present, only a few materials are believed to possess these properties.
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Dec 10, 2016
Withholding amino acid depletes blood stem cells
Posted by Steve Hill in categories: biotech/medical, life extension
A new way to destroy and replace the immune system without harsh chemo or radiation could be the path to fixing immunosenescence.
Destroying and replacing the aging immune system could help with a host of age-related problems as well as autoimmune diseases. Radiation or Chemo were previously the only options which carries significant risks. With this new technique and a few others currently being developed we may soon have a way to replace aging dysfunctional immune systems and treating diseases like MS to boot.
#aging #crowdfundthecure
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Dec 10, 2016
Electronic utensil assists people with limited mobility
Posted by Bryan Gatton in category: futurism
Dec 10, 2016
NATO’s largest cyber defence exercise: Cyber Coalition 16
Posted by Roman Mednitzer in category: cybercrime/malcode
The #NATO exercise, located in Tartu, Estonia, featured a simulated #cyber-attack, where participants worked together to identify the threat and mitigate the impact before it could spread across national systems. The participants tested and trained how to share information about cyber incidents in a rapid and efficient way, and how to coordinate their cyber defences in case of an attack.
To know more check us at https://www.shape.nato.int/2016/cyber-coalition-16-ends-nato…e-exercise
Dec 10, 2016
An Interview with Mantas Matjusaitis of CellAge, Crowdfunding New Senescent Cell Markers and Removal Methodologies
Posted by Steve Hill in categories: bioengineering, biotech/medical, life extension
FightAging! interviews Mantas from CellAge about their campaign on Lifespan.io / Life Extension Advocacy Foundation and talks about senolytics and synthetic biology.
I mentioned CellAge some weeks ago; a new entry to the collection of companies and research groups interested in developing the means to safely identify and remove senescent cells from old tissues. A few days later one of those companies, UNITY Biotechnology, announced a sizable $116 million venture round, which certainly put the field on the map for anyone who wasn’t paying attention up until that point. In contrast, CellAge are determinedly taking the non-profit route, and intend to make the progress they create freely available to the field. Why are senescent cells important? Because they are a cause of aging, and removing them is a narrowly focused form of rejuvenation, shown to restore function and extend healthy life in animal studies. An increasing number of senescent cells linger in our bodies as we age, secreting signals that harm tissue structures, produce chronic inflammation, and alter the behavior of nearby cells for the worse. Senescent cells also participate more directly in some disease processes, such as the growth of fatty deposits, weakening and blocking blood vessels, that takes place in atherosclerosis. By the time that senescent cells come to make up 1% of the cell population in an organ, their presence causes noticeable dysfunction and contributes significantly to the progression of all of the common age-related diseases.
This coming Monday, the CellAge team will be hosting an /r/futurology AMA event — the post is up already if you want add your own questions for the scientists involved. Earlier this week, the CellAge principals launched a crowdfunding campaign with Lifespan.io: they are seeking $40,000 with stretch goals and rewards beyond that to get started on their vision for senescent cell therapies. If you’ve ever wanted the chance to have a DNA promoter sequence named after you … well, here it is. This has certainly been a busy year for community fundraising in rejuvenation research: I imagine that things will heat up even more in the years ahead. The CellAge view of the field of senescent cell clearance is that the markers currently used to identify senescent cells are too crude and lacking in specificity.
Dec 10, 2016
NASA’s Working on a Nano-Starship That Travels at 1/5 the Speed of Light
Posted by Klaus Baldauf in categories: nanotechnology, space travel
In April, a team of scientists including Stephen Hawking announced a mind-boggling new project to explore interstellar space, using lasers to propel a nano-spacecraft the size of a postage stamp to our nearest star system, Alpha Centauri.
If they could get their little ‘StarChip’ spacecraft to travel at 20 percent the speed of light, it could arrive in just 20 years. But how would the electronics on such a tiny, vulnerable spacecraft survive for 20 years in the hostility of space?
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