SQUID

  • Published : 1998.09.01

Abstract

Keywords

References

  1. Introduction to Superconductivity M. Tinkham
  2. Principles of Superconductive Devices and Circuits T. Van Duzer;C. W. Turner
  3. Superconducting Devices J. Clarke;S. T. Ruggiero(ed.);D. A. Rudman(ed.)
  4. Scientific American SQUIDs J. Clarke
  5. Rev. Sci. Instrum. v.67 High performance superconducting quantum interference device feedback electronics P. H. Koch;J. R. Rozen;P.Woltgens;T. Oicunko;W. J. Gross;D. Gambrel;D. Lathrop
  6. Supercond. Sci. Technol. v.4 dc SQUID systems overview D. Drung
  7. Appl. Phys. Lett. v.66 Low-noise YBa2Cu307-? direct current superconducting quantum interference device magnetometer with direct signal injection L. P. Lee;J. Longo;V. Vinetskiy;R. Cantor
  8. Appl. Phys. Lett v.67 Addendum: Low noise $YBa_2Cu_3O_{7-x}-SrTio_3-YBa_2Cu_3O_{7-x}$ multilayers for improved superconducting magnetometers E. Dantsker;F. Ludwig;R. Kleiner;J. Clarke;M. Teepe;L. P. Lee;N. McN. Alford;T. Button
  9. Appl. Phy. Lett v.67 Flux dam, a method to reduce extra low frequency noise when a superconducting magnetometer is exposed to a magnetic field R. H. Koch;J. Z. Sun;V. Foglietta;W. J. Gallagher
  10. Appl. Phys. Lett. v.70 High-Tc superconducting quantum interference devices with slots or holes: Low 1/f noise in ambient magnetic fields E. Dansker;S. Tanaka;John Clarke
  11. J. Phys. D: Appl. Phys v.30 SQUIDs for nondestructive evaluation W. J. Jenks;S. S. H. Sadehgi;J. P. Wikswo Jr
  12. Nato ASI series E : Applied Science v.329 SQUID Sensors : Fundamentals, Fabrication and Applications Weinstock (Ed.)