SQUID '80. Superconducting Quantum Interference Devices and their Applications
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SQUID '80. Superconducting Quantum Interference Devices and their Applications

Proceedings of the Second International Conference on Superconducting Quantum Devices, Berlin (West), May 6–9, 1980

H. D. Hahlbohm, H. Lübbig

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eBook - PDF

SQUID '80. Superconducting Quantum Interference Devices and their Applications

Proceedings of the Second International Conference on Superconducting Quantum Devices, Berlin (West), May 6–9, 1980

H. D. Hahlbohm, H. Lübbig

Book details
Table of contents
Citations

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Information

Publisher
De Gruyter
Year
2019
ISBN
9783110846621
Edition
1
Topic
Physical Sciences
Subtopic
Physics
Index
Physics

Table of contents

  1. PREFACE
  2. CONTENTS
  3. LIST OF PARTICIPANTS
  4. JOSEPHSON JUNCTION PHYSICS
  5. PROGRESS IN PHYSICS OF JOSEPHSON JUNCTIONS
  6. NON-EQUILIBRIUM PHENOMENA IN JOSEPHSON JUNCTIONS
  7. STUDY OF A SPIN-GLASS PHASE TRANSITION BY THE DC JOSEPHSON EFFECT
  8. CHARACTERIZATION OP NON EQUILIBRIUM SUPERCONDUCTIVITY VIA THE JOSEPHSON EFFECT
  9. LOCALLY LOWERED TUNNELING BARRIERS IN LIGHT-SENSITIVE JOSEPHSON JUNCTIONS
  10. PREPARATION PARAMETERS AND CHARACTERIZATION OF VANADIUM BASED JOSEPHSON JUNCTIONS
  11. MEASUREMENT OF THE COS - AMPLITUDE OF NIOBIUM POINT CONTACTS CONTAINED IN A RF- SQUID
  12. AN ELECTRONIC ANALOGUE OF A HIGH FREQUENCY THEORY OF THE JOSEPHSON EFFECT
  13. SUPERCURRENT INTERFERENCE PATTERNS AND QUASIPARTICLE EXCESS CURRENTS IN JOSEPHSON TUNNEL JUNCTIONS
  14. MAGNETIC FIELD BEHAVIOR OF CURRENT STEPS IN LONG JOSEPHSON JUNCTIONS
  15. PROPERTIES OF COHERENT VORTEX MOTION IN Pb-Nb-Pb ION IMPLANT VARIABLE THICKNESS BRIDGES
  16. THE EFFECT OF MAGNETIC FIELD ON THE HEIGHT OF MICROWAVE-INDUCED STEP
  17. THE CURRENT-PHASE RELATION OP SUPERCONDUCTING BRIDGES
  18. SUB-HARMONIC STEPS OF SUPERCONDUCTING BRIDGES
  19. EFFECTS OF MICROWAVE RADIATION ON GRANULAR Al MICROBRIDGES
  20. JUNCTION AND CIRCUIT NOISE
  21. FLUCTUATIONS ANALYSIS
  22. QUANTUM LIMITED AC-BIASED SQUID MAGNETOMETER
  23. ON THE Ø<sub>DC</sub>-DEPENDENCE OF RF-SQUID NOISE
  24. THE PLASMA RESONANCE IN THE RF IMPEDANCE AND THE WIDE-BAND RESPONSE OF A CAPACITIVELY SHUNTED JOSEPHSON JUNCTION
  25. LOW FREQUENCY NOISE IN SMALL-AREA TUNNEL JUNCTION dc SQUIDs
  26. THERMODYNAMIC EQUILIBRIUM FLUCTUATIONS GENERATED BY A JOSEPHSON TUNNEL JUNCTION DESCRIBED BY THE WERTHAMER THEORY
  27. QUANTUM VERSUS THERMALLY EXCITED FLUXOID TRANSITIONS IN A SQUID RING
  28. JUNCTION AND CIRCUIT FABRICATION
  29. JUNCTION AND CIRCUIT FABRICATION
  30. HIGH RELIABILITY PB-ALLOY JOSEPHSON JUNCTIONS FOR INTEGRATED CIRCUITS
  31. SUPERCONDUCTIVE TUNNELING THROUGH EDGE-GROWN BARRIERS
  32. REFRACTORY WEAK LINK JOSEPHSON DEVICES
  33. FABRICATION AND CHARACTERIZATION OF THE FILM PARAMETERS IN ION-IMPLANT Nb BRIDGES WITH THICK Pb BANKS
  34. NB WEAK LINKS FOR SQUID APPLICATIONS
  35. ULTRA LOW NOISE DC SQUIDS
  36. SOME PROPERTIES OF Nb<sub>2</sub>O<sub>5</sub> THERMALLY GROWN TUNNEL BARRIERS IN Nb-Nb<sub>2</sub>O<sub>5</sub>-Pb(In) JOSEPHSON JUNCTIONS
  37. DC SQUIDS FABRICATED WITH NIOBIUM-NIOBIUM TUNNEL JUNCTIONS
  38. FABRICATION AND CHARACTERIZATION OF THERMALLY RECYCLABLE SUBMICRON NIOBIUMNIOBIUM JOSEPHSON JUNCTIONS
  39. SIMPLE FABRICATION AND CHARACTERIZATION OF THIN-FILM NIOBIUM SQUID'S WORKING AT 4.2 K
  40. CRYOGENIC TECHNIQUES
  41. CRYOGENICS FOR SQUIDs
  42. FUNDAMENTALS FOR SQUID APPLICATIONS
  43. FUNDAMENTALS FOR SQUID APPLICATIONS
  44. SIGNAL AND NOISE PARAMETERS OF SQUIDs
  45. SQUID APPLICATIONS IN LOW FREQUENCY DEVICES
  46. APPLICATIONS OF SQUIDS TO NUCLEAR GYROS AND MAGNETOMETERS
  47. APPLICATION OF THE SQUID-MAGNETOMETER FOR OPTOMAGNETIC INVESTIGATION
  48. OPTIMISING THE DESIGN OP THIN-FILM D.C. SQUID GRADIOMETERS
  49. THE TEMPERATURE, PRESSURE, AND POWER DEPENDENCE OF STABLE CRYO-RESISTORS
  50. MEASUREMENT OF ORDER-PARAMETER VARIATIONS IN A SUPERCONDUCTING ALUMINIUM FILM
  51. TOROIDAL SQUID WITH A NORMAL METAL FILTER
  52. BEHAVIOR OF THE DC IMPEDANCE OF AN RF-BIASED RESISTIVE SQUID
  53. INPUT INDUCTANCE OP THE EF SQUID IN HYSTEKETIC MODE
  54. ANALYSIS OF THE REVERSIBLE MAGNETIZATION OF A RF SQUID CONTAINING A WEAK LINK WITH A NON-SINUSOIDAL CURRENT PHASE RELATIONSHIP
  55. EXPERIMENTAL EVIDENCE FOR QUANTUM ELECTRODYNAMIC FLUX TUNNELLING IN SQUID MAGNETOMETER
  56. SQUID APPLICATIONS IN GEOPHYSICS
  57. GEOPHYSICAL APPLICATIONS OF SQUIDS
  58. USE OF SUPERCONDUCTIVE MAGNETIC GRADIOMETERS FOR MEASURING MAGNETIC EFFECTS OF GEOPHYSICAL ORIGIN
  59. THE DESIGN OF DEWAR SYSTEMS FOR GEOPHYSICAL SQUID MAGNETOMETERS
  60. JUNCTION AND SQUID APPLICATIONS IN COMPUTERS AND CRYOELECTRONICS
  61. COMPUTERS AND CRYOELECTRONICS
  62. TURN-ON DELAYS IN SINGLE JOSEPHSON JUNCTION DEVICES
  63. EFFECTS OF MAGNETIC FIELDS AND QUASI-PARTICLE CONDUCTANCE ON TRANSITION DYNAMICS IN DC SQUIDS
  64. DIRECT-COUPLED FOUR JOSEPHSON JUNCTIONS LOGIC GATE
  65. TOLERANCES AND GAIN OF ASYMMETRIC JOSEPHSON JUNCTION INTERFEROMETER FOR AND GATES
  66. JOSEPHSON FIELD EFFECT TRANSISTORS - JOFET'S
  67. JUNCTION AND SQUID APPLICATIONS IN MICROWAVE DEVICES
  68. RF APPLICATIONS OF SUPERCONDUCTING TUNNELING DEVICES
  69. EXPERIMENTAL RESULTS OP THE MAGNETIC COUPLING
  70. MICROWAVE PROPERTIES OF LONG JOSEPHSON JUNCTIONS
  71. MICROWAVE INDUCED HARMONIC AND SUBHARMONIC STEPS IN THE I-V CHARACTERISTICS OF CURRENT FED JOSEPHSON JUNCTIONS
  72. THE SINGLY QUASI-DEGENERATE JOSEPHSON JUNCTION PARAMETRIC AMPLIFIER. DESIGN GUIDE LINES
  73. JOSEPHSON PARAMETRIC AMPLIFIER AS A PART OF A GRAVITY WAVE DETECTION SCHEME
  74. JOSEPHSON JUNCTION APPLICATIONS IN PLASMA PHYSICS
  75. VIDEO-DETECTION OF MM-WAVE RADIATION USING SIS JOSEPHSON JUNCTION
  76. MM-WAVE DETECTION USING QUASIPARTICLE TUNNELING
  77. H.J. Hartfuß, K.H. Gundlach
  78. DETECTION OF MM.-RADIATION WITH HIGH CURRENT DENSITY SUBMICRON NIOBIUM-NIOBIUM JOSEPHSON JUNCTIONS
  79. THEORY OF JOSEPHSON JUNCTION MIXERS
  80. CHARACTERISTICS OF JOSEPHSON JUNCTION HARMONIC MIXERS WITH EVEN AND ODD HARMONIC NUMBERS
  81. SIS QUASIPARTICLE MIXING WITH LONG ANTENNA-COUPLED ARRAYS
  82. JOSEPHSON RADIATION EMITTED FROM A MICROBRIDGE AT 9, 35 AND 69 GHz
  83. COHERENT RADIATION OF JOSEPHSON JUNCTION ARRAYS
  84. MICROWAVE GENERATION USING COHERENT ARRAYS OF JOSEPHSON JUNCTIONS
  85. A NEW INTEGRATED MICROWAVE SQUID CIRCUIT DESIGN
  86. SUMMARY AND CONCLUSIONS
  87. SUMMARY AND CONCLUSIONS
  88. SUBJECT INDEX
  89. AUTHOR INDEX
Citation styles for SQUID '80. Superconducting Quantum Interference Devices and their Applications

APA 6 Citation

[author missing]. (2019). SQUID ’80. Superconducting Quantum Interference Devices and their Applications (1st ed.). De Gruyter. Retrieved from https://www.perlego.com/book/985162/squid-80-superconducting-quantum-interference-devices-and-their-applications-pdf (Original work published 2019)

Chicago Citation

[author missing]. (2019) 2019. SQUID ’80. Superconducting Quantum Interference Devices and Their Applications. 1st ed. De Gruyter. https://www.perlego.com/book/985162/squid-80-superconducting-quantum-interference-devices-and-their-applications-pdf.

Harvard Citation

[author missing] (2019) SQUID ’80. Superconducting Quantum Interference Devices and their Applications. 1st edn. De Gruyter. Available at: https://www.perlego.com/book/985162/squid-80-superconducting-quantum-interference-devices-and-their-applications-pdf (Accessed: 25 September 2021).

MLA 7 Citation

[author missing]. SQUID ’80. Superconducting Quantum Interference Devices and Their Applications. 1st ed. De Gruyter, 2019. Web. 25 Sept. 2021.