2005
DOI: 10.1063/1.1884025
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High-resolution room-temperature sample scanning superconducting quantum interference device microscope configurable for geological and biomagnetic applications

Abstract: We have developed a scanning superconducting quantum interference device ͑SQUID͒ microscope system with interchangeable sensor configurations for imaging magnetic fields of room-temperature ͑RT͒ samples with submillimeter resolution. The low-critical-temperature ͑T c ͒ niobium-based monolithic SQUID sensors are mounted on the tip of a sapphire and thermally anchored to the helium reservoir. A 25 m sapphire window separates the vacuum space from the RT sample. A positioning mechanism allows us to adjust the sam… Show more

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Cited by 64 publications
(58 citation statements)
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“…A rigid GFRP shaft that passes through the hollow center directly connects a micrometer spindle attached to the top flange of the cryostat to a copper rod placed beneath the He reservoir via thermal anchors. Instead, Fong et al (2005) used a lever mechanism for sensor-to-sample distance adjustment, which is manipulated from outside of the cryostat. A SQUID chip is mounted on the conical top of a sapphire rod, which is tightly connected to the copper rod.…”
Section: Squid Microscopementioning
confidence: 99%
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“…A rigid GFRP shaft that passes through the hollow center directly connects a micrometer spindle attached to the top flange of the cryostat to a copper rod placed beneath the He reservoir via thermal anchors. Instead, Fong et al (2005) used a lever mechanism for sensor-to-sample distance adjustment, which is manipulated from outside of the cryostat. A SQUID chip is mounted on the conical top of a sapphire rod, which is tightly connected to the copper rod.…”
Section: Squid Microscopementioning
confidence: 99%
“…Basically, current collection of scanning SQUID microscopes used for paleomagnetic studies on geological samples were developed based on the model described in Fong et al (2005). In order to realize extensive application of ultrafine-scale magnetostratigraphy of geological samples such as ferromanganese crusts for dating with a scanning SQUID microscope and pursue the possibility to improve for better resolution, sensitivity, convenience, and maintainability, we have decided to construct a scanning SQUID microscope with some new ideas.…”
Section: Introductionmentioning
confidence: 99%
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“…[14] This is a realistic model for SMM, in which doubly polished 30 mm thin sections of geological samples are typically measured at distances greater than three times the sample thickness [Fong et al, 2005;Weiss et al, 2007a]. We assume that the magnetic field is measured on the plane z = h parallel to a sample located on the x-y horizontal plane, where h is the sensor-to-sample distance or liftoff (Figure 1).…”
Section: The Inverse Problem For Scanning Magnetic Microscopymentioning
confidence: 99%