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RESEARCH PRODUCT

Wide-Field Imaging of Superconductor Vortices with Electron Spins in Diamond

Lykourgos BougasA. WaxmanDominik RohnerDmitry BudkerDmitry BudkerLucas ThielDavid GroswasserMichael KieschnickE. RozenbergTill LenzPatrick MaletinskyJan MeijerYechezkel SchlusselYaniv Bar-haimRon Folman

subject

Magnetic domainMagnetismFOS: Physical sciencesGeneral Physics and Astronomy02 engineering and technologyElectronengineering.material01 natural sciencesSuperconductivity (cond-mat.supr-con)Condensed Matter::Materials ScienceCondensed Matter::SuperconductivityMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciences010306 general physicsPhysicsSuperconductivityCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed matter physicsSpinsCondensed Matter - SuperconductivitySkyrmionDiamond021001 nanoscience & nanotechnologyMagnetic fieldengineering0210 nano-technology

description

Understanding the mechanisms behind high-$T_{c}$ Type-II superconductors (SC) is still an open task in condensed matter physics. One way to gain further insight into the microscopic mechanisms leading to superconductivity is to study the magnetic properties of the SC in detail, for example by studying the properties of vortices and their dynamics. In this work we describe a new method of wide-field imaging magnetometry using nitrogen-vacancy (NV) centers in diamond to image vortices in an yttrium barium copper oxide (YBCO) thin film. We demonstrate quantitative determination of the magnetic field strength of the vortex stray field, the observation of vortex patterns for different cooling fields and direct observation of vortex pinning in our disordered YBCO film. This method opens prospects for imaging of the magnetic-stray fields of vortices at frequencies from DC to several megahertz within a wide range of temperatures which allows for the study of both high-$T_{C}$ and low-$T_{C}$ SCs. The wide temperature range allowed by NV center magnetometry also makes our approach applicable for the study of phenomena like island superconductivity at elevated temperatures (e.g. in metal nano-clusters).

yearjournalcountryeditionlanguage
2018-03-05Physical Review Applied
https://doi.org/10.1103/physrevapplied.10.034032