Authors: George Rajna
"From new ways of capturing and storing the energy coming to us from the Sun, to developing new forms of computing technology, this research opens up some exciting new opportunities."  Jiang and his team created a way to measure and control the energy differences of electron valley states in silicon quantum dots, which are a key component of quantum computing research.  Now, researchers at Stanford University and MIT have built a new chip to overcome this hurdle.  In the quest to make computers faster and more efficient, researchers have been exploring the field of spintronics—shorthand for spin electronics—in hopes of controlling the natural spin of the electron to the benefit of electronic devices.  When two researchers from the Swiss Federal Institute of Technology (ETH Zurich) announced in April that they had successfully simulated a 45-qubit quantum circuit, the science community took notice: it was the largest ever simulation of a quantum computer, and another step closer to simulating "quantum supremacy"—the point at which quantum computers become more powerful than ordinary computers.  Researchers from the University of Pennsylvania, in collaboration with Johns Hopkins University and Goucher College, have discovered a new topological material which may enable fault-tolerant quantum computing.  The central idea of TQC is to encode qubits into states of topological phases of matter (see Collection on Topological Phases).  One promising approach to building them involves harnessing nanometer-scale atomic defects in diamond materials.  Based on early research involving the storage of movies and documents in DNA, Microsoft is developing an apparatus that uses biology to replace tape drives, researchers at the company say.  Our brains are often compared to computers, but in truth, the billions of cells in our bodies may be a better analogy. The squishy sacks of goop may seem a far cry from rigid chips and bundled wires, but cells are experts at taking inputs, running them through a complicated series of logic gates and producing the desired programmed output. 
Comments: 57 Pages.
[v1] 2017-07-12 02:37:27
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