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- Q7430063 subject Q7029056.
- Q7430063 subject Q7156667.
- Q7430063 subject Q7461013.
- Q7430063 subject Q8568252.
- Q7430063 subject Q8790127.
- Q7430063 abstract "Scanning SQUID microscopy is a technique where a superconducting quantum interference device (SQUID) is used to image surface magnetic field strength with micrometre scale resolution. A tiny SQUID is mounted onto a tip which is then rastered near the surface of the sample to be measured. As the SQUID is the most sensitive detector of magnetic fields available and can be constructed at submicrometre widths via lithography, the scanning SQUID microscope allows magnetic fields to be measured with unparalleled resolution and sensitivity. The first scanning SQUID microscope was built in 1992 by Black et al.. Since then the technique has been used to confirm unconventional superconductity in several high-temperature superconductors including YBCO and BSCCO compounds.".
- Q7430063 thumbnail DC_SQUID.svg?width=300.
- Q7430063 wikiPageExternalLink index.htm.
- Q7430063 wikiPageExternalLink www.kirtleyscientific.com.
- Q7430063 wikiPageExternalLink Link5.
- Q7430063 wikiPageExternalLink www.neocera.com.
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- Q7430063 wikiPageWikiLink Q7029056.
- Q7430063 wikiPageWikiLink Q7156667.
- Q7430063 wikiPageWikiLink Q722131.
- Q7430063 wikiPageWikiLink Q7461013.
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- Q7430063 wikiPageWikiLink Q8790127.
- Q7430063 comment "Scanning SQUID microscopy is a technique where a superconducting quantum interference device (SQUID) is used to image surface magnetic field strength with micrometre scale resolution. A tiny SQUID is mounted onto a tip which is then rastered near the surface of the sample to be measured.".
- Q7430063 label "Scanning SQUID microscopy".
- Q7430063 depiction DC_SQUID.svg.