Author_Institution :
Dept. of Phys., California Univ., Berkeley, CA, USA
Abstract :
An overview of the current status of DC and RF SQUIDs (superconducting quantum interference devices) is presented. Using Nb-based thin-film technology, a number of groups can now routinely fabricate DC SQUIDS with input circuits integrated on the same chip. At 4.2 K, the DC SQUID, which operates with a constant bias current, can detect signals with an equivalent energy per unit bandwidth of a few hundred h2π. RF SQUIDs, which operate with an RF flux bias, are usually machined from bulk Nb, and have a typical energy sensitivity per unit bandwidth of 105 to 106h2π. Both types of SQUID can be used in a wide variety of applications, including magnetometers, gradiometers, susceptometers, voltmeters, RF amplifiers, gravity-wave antennas, and gravity gradiometers. Both DC and RF SQUIDs have been fabricated from high-temperature superconductors and operated at temperatures of up to 77 K. These devices exhibit high levels of 1/f noise, which generally arises from the motion of trapped magnetic flux
Keywords :
SQUIDs; magnetometers; reviews; 1/f noise; DC SQUID; Nb thin film technology; RF SQUIDs; RF amplifiers; constant bias current; energy sensitivity; gravity gradiometers; gravity-wave antennas; high-temperature superconductors; magnetometers; overview; superconducting quantum interference devices; susceptometers; trapped magnetic flux; voltmeters; Bandwidth; High temperature superconductors; Integrated circuit technology; Radio frequency; Radiofrequency interference; SQUIDs; Signal detection; Superconducting devices; Superconducting thin films; Thin film circuits;
