New quantum computing architecture increases qubit coherence time from 100 nanoseconds to 100 microseconds The post Charge qubits get a thousand-fold boost appeared first on Physics World.
Dec 4, 2023
Physicists at the University of Duisburg-Essen and their cooperating partners have discovered that tiny graphene sheets can become electromagnets under infrared radiation. The study is published in the journal Nature Communications.
Dec 4, 2023
Self-folding polymers containing gadolinium forming nanosized complexes could be the key to enhanced magnetic resonance imaging and next-generation drug delivery, as demonstrated by scientists at Tokyo Tech. Thanks to their small size, low toxicit...
Dec 4, 2023
Researchers from ETH Zurich, Empa and Stanford have taken snapshots of the crystal structure of perovskite nanocrystals as it was deformed by excited electrons. To their surprise, the deformation straightened out the skewed crystal structure rathe...
Dec 4, 2023
A single-atom-thick sheet of carbon known as graphene has remarkable quantum properties on its own, but things can get even more interesting when you stack up multiple sheets.
Dec 4, 2023
Researchers developed graphene discs that generate magnetic fields 10,000x Earth's - switchable in picoseconds. By stirring electrons with light, discs produce swirling plasmons acting as nanomagnets toggled in trillionths of a second, enabli...
Dec 4, 2023
An innovative way to teach nanoscience, using 3D-printed models that make the unseen visible.
Dec 4, 2023
Nanografi has developed and produced a novel form of graphene it calls as Holey Super Graphene, a material set to redefine the landscape of high-tech innovations. This advanced material, notable for its distinctive perforated design, offers opport...
Dec 4, 2023
Imperfect timekeeping imposes a fundamental constraint on quantum computers, affecting large-scale algorithms and hindering their societal potential. Continue reading to learn more.
Dec 4, 2023
Self-folding polymers containing gadolinium forming nanosized complexes could be the key to enhanced magnetic resonance imaging and next-generation drug delivery.
Dec 4, 2023
