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Studying Quantum Materials with Scanning SQUID Microscopy
- Eylon Persky1, Ilya Sochnikov2,3, and Beena Kalisky1
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View Affiliations Hide AffiliationsAffiliations: 1Department of Physics and Institute of Nanotechnology and Advanced Materials, Bar-Ilan University, Ramat Gan, Israel; email: [email protected] 2Department of Physics, University of Connecticut, Storrs, Connecticut, USA 3Institute of Materials Science, University of Connecticut, Storrs, Connecticut, USA
- Vol. 13:385-405 (Volume publication date March 2022) https://doi.org/10.1146/annurev-conmatphys-031620-104226
- First published as a Review in Advance on December 21, 2021
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Copyright © 2022 by Annual Reviews. All rights reserved
Abstract
Electronic correlations give rise to fascinating macroscopic phenomena such as superconductivity, magnetism, and topological phases of matter. Although these phenomena manifest themselves macroscopically, fully understanding the underlying microscopic mechanisms often requires probing on multiple length scales. Spatial modulations on the mesoscopic scale are especially challenging to probe, owing to the limited range of suitable experimental techniques. Here, we review recent progress in scanning superconducting quantum interference device (SQUID) microscopy. We demonstrate how scanning SQUID combines unmatched magnetic field sensitivity and highly versatile designs, by surveying discoveries in unconventional superconductivity, exotic magnetism, topological states, and more. Finally, we discuss how SQUID microscopy can be further developed to answer the increasing demand for imaging new quantum materials.
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