Superconducting quantum interference device SQUID magnetometer

Magnetic Measurements were made using a Superconducting Quantum Interference Device (SQUID) magnetometer as previously described. ... 

Enpuku K, Minotani T, Gima T et al (1999) Detection of magnetic nanoparticles with superconducting quantum interference device (SQUID) magnetometer and application to immunoassays. Jpn J Appl Phys 38 L1102-L1105... 

Various adaptations that rely on force methods have been commercialised (the so-called Evans-Johnson-Matthey balance) or designed from readily available parts and described in the literature. The Evans method uses NMR and can provide variable temperature data on molecules in solution, but the technique is limited to a window where solvents stay liquid and solutes stay in solution. The one development that has been crucial to the more recent rapid development of this research field is the availability of relatively inexpensive and easy-to-use, variable temperature, variable field instrumentation, specifically the Superconducting Quantum Interference Device (SQUID) magnetometer. With a SQUID, it is possible, even for relatively inexperienced users, to determine the magnetic properties of a sample (typically 10-20 mg) as a function of temperature and applied field (down to 1.8 K and... 

Superconduction quantum interference device (SQUID) Type of magnetometer working at liquid helium temperature (-296 °C) to reduce background noise and increase sensitivity. 

SQUID Acronym for a superconducting quantum interference device SQUIDs are supersensitive superconducting detectors of extremely weak magnetic fields, hence their use in magnetometers and interferometers. 

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