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Aug 31, 2016
‘Radio whispering’ promises a great leap in wireless communications
Posted by Karen Hurst in category: energy
UC San Diego researchers working with DARPA show how to make a low-power, lightweight system that can take advantage of unused frequencies and avoid interference.
Aug 31, 2016
DARPA Researchers Develop Novel Method for Room-Temperature Atomic Layer Deposition
Posted by Karen Hurst in category: materials
Nice.
DARPA-supported researchers have developed a new approach for synthesizing ultrathin materials at room temperature—a breakthrough over industrial approaches that have demanded temperatures of 800 degrees Celsius or more. The advance opens a path to creating a host of previously unattainable thin-film microelectronics, whose production by conventional methods has been impossible because many components lose their critical functions when subjected to high temperatures.
The new method, known as electron-enhanced atomic layer deposition (EE-ALD), was recently developed at the University of Colorado, Boulder (CU) as part of DARPA’s Local Control of Materials Synthesis (LoCo) program. The CU team demonstrated room-temperature deposition of silicon and gallium nitride—linchpin elements in many advanced microelectronics—as well as the ability to controllably etch specific materials, leading to precise spatial control in three dimensions. Such a capability is critical as the demand grows for ever-smaller device architectures.
After first demonstrating the process in early 2015, team members went on to perform detailed mechanistic studies to learn how best to exploit and control EE-ALD for film growth. By controlling the electron energy during the ALD cycles, they discovered that they could tune the process to favor either material deposition or removal. The ability to selectively remove (etch) deposited material with electrons under conditions as low as room temperature is unprecedented and is anticipated to enhance film quality. The group is also exploring other methods to etch specific materials—such as aluminum nitride and hafnium oxide, important in specialized electronics applications—showing that they can selectively etch these materials in composites, which provides an attractive alternative to traditional masking approaches.
Aug 31, 2016
How a Hillbilly Delivery Man Is Trailblazing Our Cyborg Future
Posted by Karen Hurst in categories: biotech/medical, cyborgs, neuroscience, transhumanism
Never under estimate people you never know who may be the next Bill Gates.
After losing his left arm to cancer in 2008, Jonny Matheny’s life changed radically. The self-styled West Virginia hillbilly, formerly a retail bread sales and delivery man, started traveling to medical research facilities around the country to volunteer as a test-subject for advanced prosthetics and experimental surgeries. Today, Matheny is something of a Model T for cyborgs, wielding one of the most advanced mind-controlled prosthetics ever built.
When I met Matheny at a DARPA technology expo earlier this year, I was astounded by the flexibility and responsiveness of his Modular Prosthetic Limb, the latest in a series of mind-controlled prosthetics developed at the Johns Hopkins Applied Physics Laboratory. But nothing drives home the revolutionary potential of a device like this than seeing it used to perform mundane tasks: effortlessly putting on a hat or stirring a pot, for instance.
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Aug 31, 2016
Would treating cancer more like a long-term illness extend lives?
Posted by Karen Hurst in categories: biotech/medical, health
Interesting perspective on cancer.
A lot of the focus in the medical approach to cancer focuses on destroying it, but what if it was treated cancer like long-term diseases such as diabetes? Researchers have explored the concept of a method to control cancer with a drug delivery system that keeps the cells from multiplying.
The method, which researchers have called the “metronomic dosage regimen,” involves giving the patient lower doses of chemotherapy more frequently to create an environment where cancer cells cannot grow.
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Aug 31, 2016
A New Way to Create Synthetic Proteins Could Lead to More Flexible Designs
Posted by Karen Hurst in categories: biological, nanotechnology, singularity
Nice advancement for the nanomaterials space particularly as we look at ways to improve machines, devices, BMI, living buildings or other living structures, etc. Definitely advances efforts around Singularity.
Proteins perform a myriad of functions essential for life. They also make up important and useful biological materials, for example spider silk, which is exceptionally strong but still flexible.
The ability to design completely new proteins would help scientists create nanomaterials that, like spider silk, have a specific microstructure that confers useful properties.
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Aug 31, 2016
Dolomite Lends a Helping Hand to Synthetic Biology Research
Posted by Karen Hurst in categories: bioengineering, biological, computing
Excellent opportunity.
Dolomite microfluidic chips are helping researchers from the Biodesign Institute at Arizona State University (ASU) to develop novel enzymes capable of polymerising synthetic nucleotides.
Using these chips, the team has created a droplet-based optical polymerase sorting (DrOPS) technique allowing rapid screening for novel polymerase activities in uniform water-in-oil microcompartments. The team’s leader, Professor John C. Chaput – formerly at ASU and currently at the University of California, Irvine – explained: “The creation of synthetic nucleic acids is of great interest to synthetic biologists but, because they are not found in nature, wild type polymerases struggle to process them. To overcome this issue, we are developing novel polymerases using directed evolution in water-in-oil microcompartments. The DrOPS methodology has significant advantages over traditional methods, which are both labour intensive and impractical to perform on a large scale due to the amount of precious artificial nucleotide reagents required for screening.”
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Aug 31, 2016
Colors from darkness: Researchers develop alternative approach to quantum computing
Posted by Karen Hurst in categories: computing, particle physics, quantum physics
Another approach to QC; the title of the article is misleading because you still are using quantum properties in the approach.
Researchers at Aalto University have demonstrated the suitability of microwave signals in the coding of information for quantum computing. Previous development of the field has been focusing on optical systems. Researchers used a microwave resonator based on extremely sensitive measurement devices known as superconductive quantum interference devices (SQUIDs). In their studies, the resonator was cooled down and kept near absolute zero, where any thermal motion freezes. This state corresponds to perfect darkness where no photon — a real particle of electromagnetic radiation such as visible light or microwaves — is present.
However, in this state (called quantum vacuum) there exist fluctuations that bring photons in and out of existence for a very short time. The researchers have now managed to convert these fluctuations into real photons of microwave radiation with different frequencies, showing that, in a sense, darkness is more than just absence of light.
Aug 31, 2016
NREL Discovery Creates Future Opportunity in Quantum Computing
Posted by Karen Hurst in categories: computing, quantum physics
Making a more ultrafast optical switch and can be used to control or address individual spin states, which is needed for spin-based quantum computing.
August 31, 2016.
NREL scientists Ye Yang and Matt Beard stand in front of a transient absorption spectrometer in their laser lab.
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Aug 31, 2016
China’s Quantum Cryptography System
Posted by Karen Hurst in categories: computing, encryption, quantum physics
Andrew may wish to research some of the happenings in QC a little more because things are progressing quite quickly in QC than 6 months ago.
It seems that quantum communication could negate one of the big selling points of quantum computers even before they arrive on the scene.