Some of the technological applications of superconductivity include:
* the production of sensitive magnetometers based on SQUIDs (superconducting quantum interference devices)
* fast digital circuits (including those based on Josephson junctions and rapid single flux quantum technology),
* powerful superconducting electromagnets used in maglev trains, magnetic resonance imaging (MRI) and nuclear magnetic resonance (NMR) machines, magnetic confinement fusion reactors (e.g. tokamaks), and the beam-steering and focusing magnets used in particle accelerators
* low-loss power cables
* RF and microwave filters (e.g., for mobile phone base stations, as well as military ultra-sensitive/selective receivers)
* fast fault current limiters
* high sensitivity particle detectors, including the tr
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| - Technological applications of superconductivity (en)
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| - Some of the technological applications of superconductivity include:
* the production of sensitive magnetometers based on SQUIDs (superconducting quantum interference devices)
* fast digital circuits (including those based on Josephson junctions and rapid single flux quantum technology),
* powerful superconducting electromagnets used in maglev trains, magnetic resonance imaging (MRI) and nuclear magnetic resonance (NMR) machines, magnetic confinement fusion reactors (e.g. tokamaks), and the beam-steering and focusing magnets used in particle accelerators
* low-loss power cables
* RF and microwave filters (e.g., for mobile phone base stations, as well as military ultra-sensitive/selective receivers)
* fast fault current limiters
* high sensitivity particle detectors, including the tr (en)
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| - Some of the technological applications of superconductivity include:
* the production of sensitive magnetometers based on SQUIDs (superconducting quantum interference devices)
* fast digital circuits (including those based on Josephson junctions and rapid single flux quantum technology),
* powerful superconducting electromagnets used in maglev trains, magnetic resonance imaging (MRI) and nuclear magnetic resonance (NMR) machines, magnetic confinement fusion reactors (e.g. tokamaks), and the beam-steering and focusing magnets used in particle accelerators
* low-loss power cables
* RF and microwave filters (e.g., for mobile phone base stations, as well as military ultra-sensitive/selective receivers)
* fast fault current limiters
* high sensitivity particle detectors, including the transition edge sensor, the superconducting bolometer, the superconducting tunnel junction detector, the kinetic inductance detector, and the superconducting nanowire single-photon detector
* railgun and coilgun magnets
* electric motors and generators (en)
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