Josephson Junction and Superconductivity ResearchA Josephson Junction is a type of electronic circuit capable of switching at very high speeds when operated at temperatures approaching absolute zero. The Josephson Junction exploits the phenomenon of superconductivity, the ability of certain materials to conduct electric current with practically zero resistance. This book presents new and important research in superconductivity. This book presents leading research from around the world in this exciting field. This includes fabrication techniques, unconventional superconductors, Josephson tunnel junctions, Josephson vortex behaviour, thermomagnetic shock waves and finite temperature effects. |
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Results 1-3 of 17
Page 139
... thermomagnetic wave , which is caused by the balance between nonlinear and dissipative effects , caused by Joule heating at the viscous motion of Abrikosov vortices inside superconductor . 5. Nonlinear Waves in the Flux - Creep Regime ...
... thermomagnetic wave , which is caused by the balance between nonlinear and dissipative effects , caused by Joule heating at the viscous motion of Abrikosov vortices inside superconductor . 5. Nonlinear Waves in the Flux - Creep Regime ...
Page 150
... thermomagnetic wave , which is caused by the balance between nonlinear effects , caused by Joule heating and dissipative effects . The results obtained make it possible to describe the final stage of evolution of the thermomagnetic ...
... thermomagnetic wave , which is caused by the balance between nonlinear effects , caused by Joule heating and dissipative effects . The results obtained make it possible to describe the final stage of evolution of the thermomagnetic ...
Page 151
... thermo- magnetic shock waves . The necessary condition to observe the phenomena predicted is to ensure sudden initial magnetic flux lattice motion within the superconductor . For example , a thermomagnetic ' E - wave ' could be ...
... thermo- magnetic shock waves . The necessary condition to observe the phenomena predicted is to ensure sudden initial magnetic flux lattice motion within the superconductor . For example , a thermomagnetic ' E - wave ' could be ...
Contents
Probing the Order Parameter Symmetry of Unconventional | 19 |
Using Annular Josephson Tunnel Junctions to Monitor Causal | 41 |
NonEqulibrium Phase Diagrams of Current Driven Josephson | 63 |
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Common terms and phrases
Abrikosov vortices ac magnetic field ac susceptibility amplitude angle anisotropic anisotropy barrier behavior bias boundary conditions Bragg peaks ceramic corresponding critical temperature curves d-wave dc field density direction disorder domain walls dynamics effects electrodes equations equilibrium phase etching external magnetic field fabrication ferromagnetic Figure finite temperature fluctuations fluxon free energy frequency helicity modulus High-T HTSC hysteresis impurities increase inset interaction intergranular medium Josephson junctions Josephson vortices JTJs Lett longitudinal voltage low current low temperature magnetic field magnetic flux magnetic susceptibility measuring misorientation moving VL nonlinear normal obtained order parameter orientational pinning P₁ pairing peaks penetration periodic pinning perturbations phase plane phase transition Phys Physics quantum quasiparticle quench regime resistance scaling single-electron sinusoidal square JJA superconducting superconducting sample supercurrent Swihart velocity symmetry thermomagnetic transverse depinning transverse voltage tunnel junctions wave YBa₂Cu3O zero αξ