By a News Reporter-Staff News Editor at Journal of Engineering -- Researchers have discovered that dense ensembles of quantum spins can be created in diamond with high resolution using an electron microscopes, paving the way for enhanced sensors and resources for quantum technologies.
Diamonds are made of carbon atoms in a crystalline structure, but if a carbon atom is replaced with another type of atom, this will result in a lattice defect. One such defect is the Nitrogen-Vacancy (NV), where one carbon atom is replaced by a nitrogen atom, and its neighbor is missing (an empty space remains in its place).
If this defect is illuminated with a green laser, in response it will emit red light (fluoresce) with an interesting feature: its intensity varies depending on the magnetic …
https://www.newsrx.com/Butter/#!Search:a=14797857
(2017-12-04), Enhancing the quantum sensing capabilities of diamond, Journal of Engineering, 444, ISSN: 1945-872X, BUTTER® ID: 014797857
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