Superconducting Quantum Interference Device: Difference between revisions

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A '''Superconducting Quantum Interference Device (SQUID)''' is a very sensitive device for detection of [[magnetic flux]]. At low temperatures (about 4K) the output of the DC SQUID circuit can be about 1 microvolt per flux quantum if the effective resistance is about 1 Ohm and the effective inductance is about 1 nanoHenry.
A '''Superconducting Quantum Interference Device (SQUID)''' is a very sensitive device for detection of [[magnetic flux]]. At low temperatures (about 4K) the output of the DC SQUID circuit can be about 1 microvolt per flux quantum ([[fluxon]] ~ 2x10<sup>-15</sup>Weber) (if the effective resistance of the circuit is about 1 Ohm and the effective inductance is about 1 nanoHenry.


While it is used in various research applications, it is under consideration as a satellite-based [[Geophysical MASINT#Gravitimetric MASINT|intelligence sensor]] for such purposes as detecting deeply buried structures.
While it is used in various research applications, it is under consideration as a satellite-based [[Geophysical MASINT#Gravitimetric MASINT|intelligence sensor]] for such purposes as detecting deeply buried structures.
==References==
<references/>[[Category:Suggestion Bot Tag]]

Latest revision as of 11:01, 23 October 2024

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A Superconducting Quantum Interference Device (SQUID) is a very sensitive device for detection of magnetic flux. At low temperatures (about 4K) the output of the DC SQUID circuit can be about 1 microvolt per flux quantum (fluxon ~ 2x10-15Weber) (if the effective resistance of the circuit is about 1 Ohm and the effective inductance is about 1 nanoHenry.

While it is used in various research applications, it is under consideration as a satellite-based intelligence sensor for such purposes as detecting deeply buried structures.

References