Oxford Instruments NanoScience announced that it will partner with a £10 million consortium to accelerate the commercialization of quantum computing in the United Kingdom, led by Rigetti Computing. The three-year program aims to build and operate ...
Sep 2, 2020
The humble ink in a tattoo artist's needle could be the key to improving the detection of cancer. Researchers recently developed new imaging contrast agents using common dyes such as tattoo ink and food dyes. When these dyes are attached to n...
Sep 2, 2020
Researchers at Chalmers University of Technology, Sweden, have demonstrated the spin-galvanic effect, which allows for the conversion of non-equilibrium spin density into a charge current. Here, by combining graphene with a topological insulator, ...
Sep 2, 2020
Scalable nanoparticle-based computing architectures have several limitations that can severely compromise the use of nanoparticles to manipulate and process information through molecular computing schemes. The von Neumann architecture (VNA) underl...
Sep 2, 2020
The technology behind the quantum computers of the future is fast developing, with several different approaches in progress. Many of the strategies, or "blueprints," for quantum computers rely on atoms or artificial atom-like electrical ...
Sep 2, 2020
Molecules in quantum superposition could help in the development of quantum computers.
Sep 2, 2020
Scientists have demonstrated the spin-galvanic effect, which allows for the conversion of non-equilibrium spin density into a charge current. By combining graphene with a topological insulator, they realize a gate-tunable spin-galvanic effect at r...
Sep 2, 2020
In 2018, one-half of the Nobel Prize was awarded to Arthur Ashkin, the physicist who developed optical tweezers, the
Sep 2, 2020
Findings could lead to a new class of sensitive IR detectors based on carbon sheets The post Twisted bilayer graphene responds strongly to infrared light appeared first on Physics World.
Sep 2, 2020
With the highest possible spatial resolution of less than a millionth of a millimetre, electron microscopes make it possible to study the properties of materials at the atomic level and thus demonstrate the realm of quantum mechanics. Quantum-phys...
Sep 2, 2020
