Spintronics Research: Who is Doing What and Where
Spintronics Research: Who is Doing What and Where Researchers Make Strides in “Spintronics” (Spin Electronics) Excerpts and salient points ~ + Spintronics is the intrinsic spin of an electron in its associated magnetic moment or the magnetic strength and orientation of an object that produces a magnetic field in addition to its electric charge. Scientists […]
Oak Ridge National Laboratory Quantum Computing and Networking Experiments Could Lead to Applications in Cybersecurity
Oak Ridge National Laboratory Quantum Computing and Networking Experiments Could Lead to Applications in Cybersecurity Quantum experiments explore power of light for communications, computing Researchers in ORNL’s Quantum Information Science group summarized their significant contributions to quantum networking and quantum computing in a special issue of Optics & Photonics News. Credit: Christopher Tison and Michael […]
Could Quantum Computing Stem a Wuhan Coronavirus Pandemic?
Could Quantum Computing Stem a Wuhan Coronavirus Pandemic? Above is a view taken January 26, 2020, of the live Wuhan Coronavirus Pandemic chart put together by Johns Hopkins University’s Center for Systems Science and Engineering team. [Updated and best viewed at the source by clicking the image or this text.] During a long drive to […]
Squeezing 61 Simulated Qubits for Grover’s Algorithm and Having a Scant 0.4 Percent Error
Squeezing 61 Simulated Qubits for Grover’s Algorithm and Having a Scant 0.4 Percent Error EPiQC Researchers Simulate 61-Bit Quantum Computer With Data Compression Key points… + When trying to debug quantum hardware and software by using a quantum simulator, every quantum bit (qubit) counts. Every simulated qubit closer to physical machine sizes halves the gap […]
Laser System of Spinning Photons Could Solve the Traveling Salesman Problem
Laser System of Spinning Photons Could Solve the Traveling Salesman Problem Computing With Spins of Light Excerpts and salient points ~ + To try to solve complex problems faster, physicists are turning to spin systems, which are simplified models that describe the interactions between particles in a material. In the “XY model’ of a spin […]
Quantum Computing’s Impact Is Closer Than One May Think
Quantum Computing’s Impact Is Closer Than One May Think Rather extensive article covering potential applications of quantum computing toward carbon emissions. Putting politics and climate science controversy aside, this piece frames some interesting applications for quantum computing, regardless. Because Quantum is Coming. Qubit. A Quantum Advantage in Fighting Climate Change Points to note… + The […]
Chicago Quantum Exchange Paving Way for Quantum Materials
Chicago Quantum Exchange Paving Way for Quantum Materials Creating and observing current vortices in 2D materials Quantum researchers at the University of Chicago have developed a new method to measure how photocurrents flow in a 2D material — a result that could have implications for developing quantum sensors and next-generation electronics. By using quantum sensors […]
Just How Coordinated is Nature’s Quantum Entanglement?
Just How Coordinated is Nature’s Quantum Entanglement? The answer is probably a bit more complicated, but similar to asking, just how many licks does it take to get to the center of a Tootsie Pop? “The world may never know…” Because Quantum is Coming. Qubit. How ‘spooky’ is quantum physics? The answer could be incalculable […]
U.S. and Austrian Research Team Finds Inumerable Entangled Electrons in Material Composed of Ytterbium, Rhodium, and Silicon
U.S. and Austrian Research Team Finds Inumerable Entangled Electrons in Material Composed of Ytterbium, Rhodium, and Silicon Billions of quantum entangled electrons found in ‘strange metal’ In a new study, U.S. and Austrian physicists have observed quantum entanglement among “billions of billions” of flowing electrons in a quantum critical material. The research, which appears this […]
Optimizing Quantum Memory in the Near Term
Optimizing Quantum Memory in the Near Term Optimizing High-Efficiency Quantum Memory with Quantum Machine Learning for Near-Term Quantum Devices Abstract ~ + Optimizing High-Efficiency Quantum Memory with Quantum Machine Learning for Near-Term Quantum Devices + Quantum memories are a fundamental of any global-scale quantum Internet, high-performance quantum networking and near-term quantum computers. A main problem […]