Section 815-10: Superconducting properties | ![](/icons/ecblank.gif) |
| 815-10-01 | | perfect diamagnetism | ![](/icons/ecblank.gif) |
| 815-10-02 | | superconductivity | ![](/icons/ecblank.gif) |
| 815-10-03 | | superconducting, adj | ![](/icons/ecblank.gif) |
| 815-10-04 | | superconductive, adj | ![](/icons/ecblank.gif) |
| 815-10-05 | | superconducting state | ![](/icons/ecblank.gif) |
| 815-10-06 | | superconductor | ![](/icons/ecblank.gif) |
| 815-10-07 | | normal state, <superconductor> | ![](/icons/ecblank.gif) |
| 815-10-08 | | superconducting transition | ![](/icons/ecblank.gif) |
| 815-10-09 | | critical temperature | ![](/icons/ecblank.gif) |
| 815-10-10 | | Meissner state | ![](/icons/ecblank.gif) |
| 815-10-11 | | flux expulsion | ![](/icons/ecblank.gif) |
| 815-10-12 | | Meissner-Ochsenfeld effect | ![](/icons/ecblank.gif) |
| 815-10-13 | | persistent current | ![](/icons/ecblank.gif) |
| 815-10-14 | | flux quantum | ![](/icons/ecblank.gif) |
| 815-10-15 | | fluxoid | ![](/icons/ecblank.gif) |
| 815-10-16 | | fluxon | ![](/icons/ecblank.gif) |
| 815-10-17 | | fluxon lattice | ![](/icons/ecblank.gif) |
| 815-10-18 | | mixed state | ![](/icons/ecblank.gif) |
| 815-10-19 | | intermediate state | ![](/icons/ecblank.gif) |
| 815-10-20 | | superconducting condensation energy | ![](/icons/ecblank.gif) |
| 815-10-21 | | critical field strength | ![](/icons/ecblank.gif) |
| 815-10-22 | | type I superconductor | ![](/icons/ecblank.gif) |
| 815-10-23 | | lower critical field strength | ![](/icons/ecblank.gif) |
| 815-10-24 | | upper critical field strength | ![](/icons/ecblank.gif) |
| 815-10-25 | | type II superconductor | ![](/icons/ecblank.gif) |
| 815-10-26 | | Cooper pair | ![](/icons/ecblank.gif) |
| 815-10-27 | | BCS theory | ![](/icons/ecblank.gif) |
| 815-10-28 | | superconducting energy gap | ![](/icons/ecblank.gif) |
| 815-10-29 | | Ginzburg-Landau theory | ![](/icons/ecblank.gif) |
| 815-10-30 | | order parameter, <superconductor> | ![](/icons/ecblank.gif) |
| 815-10-31 | | BCS coherence length | ![](/icons/ecblank.gif) |
| 815-10-32 | | coherence length | ![](/icons/ecblank.gif) |
| 815-10-33 | | London penetration depth | ![](/icons/ecblank.gif) |
| 815-10-34 | | Ginzburg-Landau parameter | ![](/icons/ecblank.gif) |
| 815-10-35 | | clean superconductor | ![](/icons/ecblank.gif) |
| 815-10-36 | | dirty superconductor | ![](/icons/ecblank.gif) |
| 815-10-37 | | Josephson junction | ![](/icons/ecblank.gif) |
| 815-10-38 | | DC Josephson effect | ![](/icons/ecblank.gif) |
| 815-10-39 | | AC Josephson effect | ![](/icons/ecblank.gif) |
| 815-10-40 | | isotope effect | ![](/icons/ecblank.gif) |
| 815-10-41 | | surface superconductivity | ![](/icons/ecblank.gif) |
| 815-10-42 | | proximity effect, <superconductor> | ![](/icons/ecblank.gif) |
| 815-10-43 | | pancake vortex | ![](/icons/ecblank.gif) |
| 815-10-44 | | Josephson vortex | ![](/icons/ecblank.gif) |
Section 815-11: Superconducting materials | ![](/icons/ecblank.gif) |
| 815-11-01 | | superconducting element | ![](/icons/ecblank.gif) |
| 815-11-02 | | alloy superconductor | ![](/icons/ecblank.gif) |
| 815-11-03 | | compound superconductor | ![](/icons/ecblank.gif) |
| 815-11-04 | | organic superconductor | ![](/icons/ecblank.gif) |
| 815-11-05 | | oxide superconductor | ![](/icons/ecblank.gif) |
| 815-11-06 | | Perovskite superconductor | ![](/icons/ecblank.gif) |
| 815-11-07 | | CuO2 sheet | ![](/icons/ecblank.gif) |
| 815-11-08 | | copper-oxide superconductor | ![](/icons/ecblank.gif) |
| 815-11-09 | | p-type copper-oxide superconductor | ![](/icons/ecblank.gif) |
| 815-11-10 | | n-type copper-oxide superconductor | ![](/icons/ecblank.gif) |
| 815-11-11 | | high temperature superconductor | ![](/icons/ecblank.gif) |
| 815-11-12 | | low temperature superconductor | ![](/icons/ecblank.gif) |
| 815-11-13 | | A-15 superconductor | ![](/icons/ecblank.gif) |
| 815-11-14 | | B-1 superconductor | ![](/icons/ecblank.gif) |
| 815-11-15 | | Laves phase superconductor | ![](/icons/ecblank.gif) |
| 815-11-16 | | Chevrel phase superconductor | ![](/icons/ecblank.gif) |
| 815-11-17 | | fullerene superconductor | ![](/icons/ecblank.gif) |
| 815-11-18 | | boron carbide superconductor | ![](/icons/ecblank.gif) |
| 815-11-19 | | magnesium diboride superconductor | ![](/icons/ecblank.gif) |
| 815-11-20 | | iron-based superconductor | ![](/icons/ecblank.gif) |
Section 815-12: Electromagnetic phenomena and properties | ![](/icons/ecblank.gif) |
| 815-12-01 | | critical current | ![](/icons/ecblank.gif) |
| 815-12-02 | | critical current criterion | ![](/icons/ecblank.gif) |
| 815-12-03 | | critical current density | ![](/icons/ecblank.gif) |
| 815-12-04 | | transport critical current density | ![](/icons/ecblank.gif) |
| 815-12-05 | | critical surface | ![](/icons/ecblank.gif) |
| 815-12-06 | | critical state model | ![](/icons/ecblank.gif) |
| 815-12-07 | | Bean model | ![](/icons/ecblank.gif) |
| 815-12-08 | | Kim model | ![](/icons/ecblank.gif) |
| 815-12-09 | | magnetization critical current density | ![](/icons/ecblank.gif) |
| 815-12-10 | | n-value, <superconductor> | ![](/icons/ecblank.gif) |
| 815-12-11 | | quench | ![](/icons/ecblank.gif) |
| 815-12-12 | | stabilizer | ![](/icons/ecblank.gif) |
| 815-12-13 | | recovery current | ![](/icons/ecblank.gif) |
| 815-12-14 | | stress effect | ![](/icons/ecblank.gif) |
| 815-12-15 | | radiation effect | ![](/icons/ecblank.gif) |
| 815-12-16 | | Lorentz force, <on fluxons> | ![](/icons/ecblank.gif) |
| 815-12-17 | | surface barrier | ![](/icons/ecblank.gif) |
| 815-12-18 | | pinning centre | ![](/icons/ecblank.gif) |
| 815-12-19 | | flux pinning | ![](/icons/ecblank.gif) |
| 815-12-20 | | flux creep | ![](/icons/ecblank.gif) |
| 815-12-21 | | flux flow | ![](/icons/ecblank.gif) |
| 815-12-22 | | flux jump | ![](/icons/ecblank.gif) |
| 815-12-23 | | pinning force | ![](/icons/ecblank.gif) |
| 815-12-24 | | elementary pinning force | ![](/icons/ecblank.gif) |
| 815-12-25 | | pinning force density | ![](/icons/ecblank.gif) |
| 815-12-26 | | scaling law of pinning force density | ![](/icons/ecblank.gif) |
| 815-12-27 | | Kramer's law | ![](/icons/ecblank.gif) |
| 815-12-28 | | trapped flux | ![](/icons/ecblank.gif) |
| 815-12-29 | | surface pinning | ![](/icons/ecblank.gif) |
| 815-12-30 | | irreversibility line | ![](/icons/ecblank.gif) |
| 815-12-31 | | grain boundary weak link | ![](/icons/ecblank.gif) |
Section 815-13: Wires and conductors | ![](/icons/ecblank.gif) |
| 815-13-02 | | conductor, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-04 | | concentric lay cable | ![](/icons/ecblank.gif) |
| 815-13-05 | | braid, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-06 | | strand | ![](/icons/ecblank.gif) |
| 815-13-07 | | coreless cable | ![](/icons/ecblank.gif) |
| 815-13-08 | | tape conductor | ![](/icons/ecblank.gif) |
| 815-13-09 | | hollow conductor, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-10 | | tubular conductor | ![](/icons/ecblank.gif) |
| 815-13-11 | | compact round cable | ![](/icons/ecblank.gif) |
| 815-13-12 | | core cable | ![](/icons/ecblank.gif) |
| 815-13-13 | | Litz cable | ![](/icons/ecblank.gif) |
| 815-13-14 | | stranded conductor | ![](/icons/ecblank.gif) |
| 815-13-15 | | compact stranded conductor | ![](/icons/ecblank.gif) |
| 815-13-16 | | keystone stranded conductor | ![](/icons/ecblank.gif) |
| 815-13-17 | | Rutherford cable | ![](/icons/ecblank.gif) |
| 815-13-18 | | cable-in-conduit conductor | ![](/icons/ecblank.gif) |
| 815-13-19 | | composite superconductor | ![](/icons/ecblank.gif) |
| 815-13-20 | | superconducting filament | ![](/icons/ecblank.gif) |
| 815-13-21 | | superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-22 | | superconducting cable | ![](/icons/ecblank.gif) |
| 815-13-23 | | stabilized superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-24 | | insulated superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-25 | | force-cooled superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-26 | | reinforced superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-27 | | superconducting film | ![](/icons/ecblank.gif) |
| 815-13-28 | | single core wire, <superconductor> | ![](/icons/ecblank.gif) |
| 815-13-29 | | multi-filamentary superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-30 | | monolithic superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-31 | | three-component superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-32 | | twisted superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-33 | | DC superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-34 | | pulsed-current superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-35 | | AC superconducting wire | ![](/icons/ecblank.gif) |
| 815-13-36 | | spacing to diameter ratio | ![](/icons/ecblank.gif) |
| 815-13-37 | | matrix, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-38 | | mixed matrix, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-39 | | matrix to superconductor volume ratio | ![](/icons/ecblank.gif) |
| 815-13-40 | | copper to superconductor volume ratio | ![](/icons/ecblank.gif) |
| 815-13-41 | | copper to non-copper volume ratio | ![](/icons/ecblank.gif) |
| 815-13-42 | | volume per cent of superconductor | ![](/icons/ecblank.gif) |
| 815-13-43 | | diffusion barrier | ![](/icons/ecblank.gif) |
| 815-13-44 | | reinforcing member | ![](/icons/ecblank.gif) |
| 815-13-45 | | sheath, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-46 | | twist | ![](/icons/ecblank.gif) |
| 815-13-47 | | twist pitch length | ![](/icons/ecblank.gif) |
| 815-13-48 | | transposition pitch length | ![](/icons/ecblank.gif) |
| 815-13-49 | | aspect ratio | ![](/icons/ecblank.gif) |
| 815-13-50 | | corner radius | ![](/icons/ecblank.gif) |
| 815-13-51 | | eddy current | ![](/icons/ecblank.gif) |
| 815-13-52 | | AC loss | ![](/icons/ecblank.gif) |
| 815-13-53 | | hysteresis loss, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-54 | | eddy current loss, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-13-55 | | coupling current | ![](/icons/ecblank.gif) |
| 815-13-56 | | proximity coupling current | ![](/icons/ecblank.gif) |
| 815-13-57 | | coupling current loss | ![](/icons/ecblank.gif) |
| 815-13-58 | | coupling time constant | ![](/icons/ecblank.gif) |
| 815-13-59 | | effective filament diameter | ![](/icons/ecblank.gif) |
| 815-13-60 | | surface impedance | ![](/icons/ecblank.gif) |
| 815-13-61 | | residual resistivity | ![](/icons/ecblank.gif) |
| 815-13-62 | | residual resistance ratio | ![](/icons/ecblank.gif) |
| 815-13-63 | | bulk superconductor | ![](/icons/ecblank.gif) |
| 815-13-64 | | coated conductor | ![](/icons/ecblank.gif) |
| 815-13-65 | | Roebel cable | ![](/icons/ecblank.gif) |
| 815-13-66 | | AC loss energy density | ![](/icons/ecblank.gif) |
Section 815-14: Production process | ![](/icons/ecblank.gif) |
| 815-14-01 | | drawing | ![](/icons/ecblank.gif) |
| 815-14-02 | | swaging | ![](/icons/ecblank.gif) |
| 815-14-03 | | cold work | ![](/icons/ecblank.gif) |
| 815-14-04 | | billet | ![](/icons/ecblank.gif) |
| 815-14-05 | | extrusion | ![](/icons/ecblank.gif) |
| 815-14-06 | | twisting | ![](/icons/ecblank.gif) |
| 815-14-07 | | stranding | ![](/icons/ecblank.gif) |
| 815-14-08 | | intermediate heat treatment | ![](/icons/ecblank.gif) |
| 815-14-09 | | surface diffusion process | ![](/icons/ecblank.gif) |
| 815-14-10 | | composite fabrication process | ![](/icons/ecblank.gif) |
| 815-14-11 | | bronze process | ![](/icons/ecblank.gif) |
| 815-14-12 | | chemical vapour deposition process | ![](/icons/ecblank.gif) |
| 815-14-13 | | physical vapour deposition process | ![](/icons/ecblank.gif) |
| 815-14-14 | | in-situ process | ![](/icons/ecblank.gif) |
| 815-14-15 | | ex-situ process | ![](/icons/ecblank.gif) |
| 815-14-16 | | powder metallurgy process | ![](/icons/ecblank.gif) |
| 815-14-17 | | external diffusion process | ![](/icons/ecblank.gif) |
| 815-14-18 | | tube process | ![](/icons/ecblank.gif) |
| 815-14-19 | | internal tin process | ![](/icons/ecblank.gif) |
| 815-14-20 | | infiltration process | ![](/icons/ecblank.gif) |
| 815-14-21 | | jelly roll process | ![](/icons/ecblank.gif) |
| 815-14-22 | | melt-textured growth process | ![](/icons/ecblank.gif) |
| 815-14-23 | | texture control | ![](/icons/ecblank.gif) |
| 815-14-24 | | melt process | ![](/icons/ecblank.gif) |
| 815-14-25 | | calcination | ![](/icons/ecblank.gif) |
| 815-14-26 | | precursor | ![](/icons/ecblank.gif) |
| 815-14-27 | | sintering | ![](/icons/ecblank.gif) |
| 815-14-28 | | sol-gel process | ![](/icons/ecblank.gif) |
| 815-14-29 | | coprecipitation process | ![](/icons/ecblank.gif) |
| 815-14-30 | | spray drying process | ![](/icons/ecblank.gif) |
| 815-14-31 | | spray pyrolysis process | ![](/icons/ecblank.gif) |
| 815-14-32 | | freeze-drying process | ![](/icons/ecblank.gif) |
| 815-14-33 | | plasma spray process | ![](/icons/ecblank.gif) |
Section 815-15: Superconducting magnet technologies | ![](/icons/ecblank.gif) |
| 815-15-01 | | cryogenic refrigeration | ![](/icons/ecblank.gif) |
| 815-15-02 | | cryogenic refrigerator | ![](/icons/ecblank.gif) |
| 815-15-03 | | coldhead | ![](/icons/ecblank.gif) |
| 815-15-04 | | cooling channel | ![](/icons/ecblank.gif) |
| 815-15-05 | | heat transfer | ![](/icons/ecblank.gif) |
| 815-15-06 | | pool cooling | ![](/icons/ecblank.gif) |
| 815-15-07 | | conduction cooling | ![](/icons/ecblank.gif) |
| 815-15-08 | | convection cooling | ![](/icons/ecblank.gif) |
| 815-15-09 | | nucleate boiling | ![](/icons/ecblank.gif) |
| 815-15-10 | | film boiling | ![](/icons/ecblank.gif) |
| 815-15-11 | | radiation cooling | ![](/icons/ecblank.gif) |
| 815-15-12 | | radiation shield | ![](/icons/ecblank.gif) |
| 815-15-13 | | residual gas | ![](/icons/ecblank.gif) |
| 815-15-14 | | residual gas heat transfer | ![](/icons/ecblank.gif) |
| 815-15-15 | | vacuum insulation | ![](/icons/ecblank.gif) |
| 815-15-16 | | multilayer insulation | ![](/icons/ecblank.gif) |
| 815-15-17 | | supercritical helium | ![](/icons/ecblank.gif) |
| 815-15-18 | | superfluid helium | ![](/icons/ecblank.gif) |
| 815-15-19 | | stabilization, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-15-20 | | full stabilization | ![](/icons/ecblank.gif) |
| 815-15-21 | | adiabatic stabilization | ![](/icons/ecblank.gif) |
| 815-15-22 | | dynamic stabilization | ![](/icons/ecblank.gif) |
| 815-15-23 | | magnetic diffusivity | ![](/icons/ecblank.gif) |
| 815-15-24 | | magnetic diffusion time constant | ![](/icons/ecblank.gif) |
| 815-15-25 | | thermal diffusion time constant | ![](/icons/ecblank.gif) |
| 815-15-26 | | current sharing | ![](/icons/ecblank.gif) |
| 815-15-27 | | Stekly's stability criterion | ![](/icons/ecblank.gif) |
| 815-15-28 | | Maddock's stability criterion | ![](/icons/ecblank.gif) |
| 815-15-29 | | equal area theorem | ![](/icons/ecblank.gif) |
| 815-15-30 | | normal zone propagation velocity | ![](/icons/ecblank.gif) |
| 815-15-31 | | thermal runaway | ![](/icons/ecblank.gif) |
| 815-15-32 | | minimum propagation zone criterion | ![](/icons/ecblank.gif) |
| 815-15-33 | | longitudinal propagation, <in superconductivity> | ![](/icons/ecblank.gif) |
| 815-15-34 | | transverse propagation | ![](/icons/ecblank.gif) |
| 815-15-35 | | adiabatic temperature rise | ![](/icons/ecblank.gif) |
| 815-15-36 | | protection circuit | ![](/icons/ecblank.gif) |
| 815-15-37 | | sectioning | ![](/icons/ecblank.gif) |
| 815-15-38 | | grading | ![](/icons/ecblank.gif) |
| 815-15-39 | | external resistor | ![](/icons/ecblank.gif) |
| 815-15-40 | | coupled secondary coil | ![](/icons/ecblank.gif) |
| 815-15-41 | | Joule heating | ![](/icons/ecblank.gif) |
| 815-15-42 | | wind and react technique | ![](/icons/ecblank.gif) |
| 815-15-43 | | react and wind technique | ![](/icons/ecblank.gif) |
| 815-15-44 | | vacuum impregnation | ![](/icons/ecblank.gif) |
| 815-15-45 | | wet winding | ![](/icons/ecblank.gif) |
| 815-15-46 | | insulation | ![](/icons/ecblank.gif) |
| 815-15-47 | | spacer | ![](/icons/ecblank.gif) |
| 815-15-48 | | current lead | ![](/icons/ecblank.gif) |
| 815-15-49 | | training effect | ![](/icons/ecblank.gif) |
| 815-15-50 | | degradation, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-15-51 | | cryostat | ![](/icons/ecblank.gif) |
| 815-15-52 | | cryogen-free superconducting magnet | ![](/icons/ecblank.gif) |
| 815-15-53 | | quench detector | ![](/icons/ecblank.gif) |
| 815-15-54 | | cryocooler | ![](/icons/ecblank.gif) |
| 815-15-55 | | current transfer, <in superconductivity-related technology> | ![](/icons/ecblank.gif) |
| 815-15-56 | | magnetization, <superconductor> | ![](/icons/ecblank.gif) |
| 815-15-57 | | persistent mode operation | ![](/icons/ecblank.gif) |
Section 815-16: Applied technology | ![](/icons/ecblank.gif) |
| 815-16-01 | | coil | ![](/icons/ecblank.gif) |
| 815-16-02 | | magnet | ![](/icons/ecblank.gif) |
| 815-16-03 | | superconducting magnet | ![](/icons/ecblank.gif) |
| 815-16-04 | | solenoid | ![](/icons/ecblank.gif) |
| 815-16-05 | | pancake coil | ![](/icons/ecblank.gif) |
| 815-16-06 | | split pair coil | ![](/icons/ecblank.gif) |
| 815-16-07 | | Helmholtz coil | ![](/icons/ecblank.gif) |
| 815-16-08 | | saddle coil | ![](/icons/ecblank.gif) |
| 815-16-09 | | race-track coil | ![](/icons/ecblank.gif) |
| 815-16-10 | | dipole magnet | ![](/icons/ecblank.gif) |
| 815-16-11 | | quadrupole magnet | ![](/icons/ecblank.gif) |
| 815-16-12 | | toroidal coil | ![](/icons/ecblank.gif) |
| 815-16-13 | | poloidal coil | ![](/icons/ecblank.gif) |
| 815-16-14 | | shim coil | ![](/icons/ecblank.gif) |
| 815-16-15 | | impregnated coil | ![](/icons/ecblank.gif) |
| 815-16-16 | | pulsed magnet | ![](/icons/ecblank.gif) |
| 815-16-17 | | hybrid coil | ![](/icons/ecblank.gif) |
| 815-16-18 | | superconducting motor | ![](/icons/ecblank.gif) |
| 815-16-19 | | superconducting generator | ![](/icons/ecblank.gif) |
| 815-16-20 | | superconducting power cable | ![](/icons/ecblank.gif) |
| 815-16-21 | | superconducting communication cable | ![](/icons/ecblank.gif) |
| 815-16-22 | | superconducting transformer | ![](/icons/ecblank.gif) |
| 815-16-23 | | superconducting fault current limiter | ![](/icons/ecblank.gif) |
| 815-16-24 | | superconducting magnetic energy storage | ![](/icons/ecblank.gif) |
| 815-16-25 | | nuclear fusion generation | ![](/icons/ecblank.gif) |
| 815-16-26 | | magneto hydrodynamic generation | ![](/icons/ecblank.gif) |
| 815-16-27 | | superconducting magnetically levitated train | ![](/icons/ecblank.gif) |
| 815-16-28 | | superconducting particle accelerator | ![](/icons/ecblank.gif) |
| 815-16-29 | | superconducting cavity | ![](/icons/ecblank.gif) |
| 815-16-30 | | particle detector | ![](/icons/ecblank.gif) |
| 815-16-31 | | cyclotron | ![](/icons/ecblank.gif) |
| 815-16-32 | | gyrotron | ![](/icons/ecblank.gif) |
| 815-16-33 | | synchrotron | ![](/icons/ecblank.gif) |
| 815-16-34 | | synchrotron radiation facility | ![](/icons/ecblank.gif) |
| 815-16-35 | | nuclear magnetic resonance apparatus | ![](/icons/ecblank.gif) |
| 815-16-36 | | magnetic resonance imaging apparatus | ![](/icons/ecblank.gif) |
| 815-16-37 | | superconducting high gradient magnetic separation | ![](/icons/ecblank.gif) |
| 815-16-38 | | flux pump | ![](/icons/ecblank.gif) |
| 815-16-39 | | cryotron | ![](/icons/ecblank.gif) |
| 815-16-40 | | persistent current switch | ![](/icons/ecblank.gif) |
| 815-16-41 | | superconducting magnetic shielding | ![](/icons/ecblank.gif) |
| 815-16-42 | | superconducting transistor | ![](/icons/ecblank.gif) |
| 815-16-43 | | superconducting memory | ![](/icons/ecblank.gif) |
| 815-16-44 | | superconductor-insulator-superconductor mixer | ![](/icons/ecblank.gif) |
| 815-16-45 | | single flux quantum device | ![](/icons/ecblank.gif) |
| 815-16-46 | | SQUID | ![](/icons/ecblank.gif) |
| 815-16-47 | | Josephson voltage standard | ![](/icons/ecblank.gif) |
| 815-16-48 | | magnetic bearing | ![](/icons/ecblank.gif) |
| 815-16-49 | | superconducting microwave resonator | ![](/icons/ecblank.gif) |
| 815-16-50 | | superconducting microwave filter | ![](/icons/ecblank.gif) |
| 815-16-51 | | superconducting microwave antenna | ![](/icons/ecblank.gif) |
| 815-16-52 | | superconducting microwave delay line | ![](/icons/ecblank.gif) |
| 815-16-53 | | transition-edge sensor | ![](/icons/ecblank.gif) |
| 815-16-54 | | superconducting tunnel junction detector | ![](/icons/ecblank.gif) |
| 815-16-55 | | superconducting MCZ | ![](/icons/ecblank.gif) |
| 815-16-56 | | superconducting qubit | ![](/icons/ecblank.gif) |
Section 815-17: Test and evaluation methods | ![](/icons/ecblank.gif) |
| 815-17-01 | | natural engineering strain | ![](/icons/ecblank.gif) |
| 815-17-02 | | nominal engineering strain | ![](/icons/ecblank.gif) |
| 815-17-03 | | bending strain | ![](/icons/ecblank.gif) |
| 815-17-04 | | maximum bending strain | ![](/icons/ecblank.gif) |
| 815-17-05 | | serration | ![](/icons/ecblank.gif) |
| 815-17-06 | | stress condition | ![](/icons/ecblank.gif) |
| 815-17-07 | | fracture toughness | ![](/icons/ecblank.gif) |
| 815-17-08 | | compliance method | ![](/icons/ecblank.gif) |
| 815-17-09 | | S-N curve | ![](/icons/ecblank.gif) |
| 815-17-10 | | electrical resistance method | ![](/icons/ecblank.gif) |
| 815-17-11 | | magnetic susceptibility | ![](/icons/ecblank.gif) |
| 815-17-12 | | DC magnetic susceptibility method | ![](/icons/ecblank.gif) |
| 815-17-13 | | AC magnetic susceptibility | ![](/icons/ecblank.gif) |
| 815-17-14 | | AC magnetic susceptibility method | ![](/icons/ecblank.gif) |
| 815-17-15 | | magnetization method for AC loss energy density | ![](/icons/ecblank.gif) |
| 815-17-16 | | calorimetric method for AC loss | ![](/icons/ecblank.gif) |
| 815-17-17 | | trapped flux density test method | ![](/icons/ecblank.gif) |
| 815-17-18 | | standard two-resonator method | ![](/icons/ecblank.gif) |
| 815-17-19 | | uncertainty of measurement | ![](/icons/ecblank.gif) |
| 815-17-20 | | magnetoscan technique | ![](/icons/ecblank.gif) |
| ![](/icons/ecblank.gif) |