[ad_1] New and used cars are getting more expensive because of a global semiconductor (chip) shortage, but there’s much more to the story.While automotive shortages are certainly front center and right now, they didn’t occur…
Using graphene to encode and process quantum information…
[ad_1] A programmable photonic circuit has been developed that can execute various quantum algorithms and is potentially highly scalable. This device could pave the way for large-scale quantum computers based on photonic hardware. Image by…
Indian Institute of Tech, Max-Born Institut Team Say…
[ad_1] Aside from their charge, electrons have another parameter that can be manipulated: their “valley pseudospin,” which are the local minima in the energy bands of solids that can be occupied by electrons. By manipulating…
Atomically-Thin, Twisted Graphene Has Unique Properties That Could…
[ad_1] New collaborative research describes how electrons move through two different configurations of bilayer graphene, the atomically-thin form of carbon. These results provide insights that researchers could use to design more powerful and secure quantum…
Layered graphene with a twist displays unique quantum…
[ad_1] Staff scientist Jurek Sadowski (left) and postdoc Zhongwei Dai at the Quantum Material Press (QPress) facility at the Center for Functional Nanomaterials (CFN) at Brookhaven National Laboratory. The large circular piece is the central…
Atomically-thin, twisted graphene has unique properties (via Qpute.com)
[ad_1] New research published in Physical Review Letters describes how electrons move through two different configurations of bilayer graphene, the atomically-thin form of carbon. This study, the result of a collaboration between Brookhaven National Laboratory,…
Unlocking Radiation-Free Quantum Technology with Graphene (via Qpute.com)
[ad_1] Newswise — Rare-earth compounds have fascinated researchers for decades due to the unique quantum properties they display, which have so far remained totally out of reach of everyday compounds. One of the most remarkable…
New step towards topological graphene qubits – Explica…
[ad_1] In the quantum world, electrons can group together to behave in fascinating ways, intervening in phenomena like the everyday magnetism (phenomena mediated by magnetic fields common in our electronic devices) and the rarest superconductivity…
Towards the topological qubits of graphene – Explica…
[ad_1] In the quantum world, electrons can group together to behave in fascinating ways. Magnetism is one of these behaviors that we see in our day to day, as well as the rarest phenomenon of…