superconductivity (Also superconductivities) : Related Words Words similar in meaning to superconductivity
- superconductivity«
- underdope«
- critical temperature«
- superinsulation«
- superconductors«
- electrical conduction«
- superconductor«
- magnetic field«
- superconductive«
- niobium«
- superconduction«
- meissner effect«
- bcs theory«
- superconducting«
- superconducting material«
- superconduct«
- material«
- temperature«
- resistance«
- landau theory«
- property«
- electron«
- ginzburg«
- fulleride«
- london penetration depth«
- flow«
- normal phase«
- electric«
- current«
- phase transition«
- cryotronics«
- cryotron«
- electric current«
- cryoelectronics«
- vortex«
- cooperon«
- meissner«
- titanium«
- theory«
- typei«
- conventional superconductors«
- heinz london«
- nobel prize«
- london equation«
- conventional superconductor«
- cuprate superconductors«
- electrical resistance«
- critical field«
- temperature superconductor«
- phenomenon«
- transition temperature«
- temperature superconductors«
- lattice«
- liquid helium«
- external magnetic field«
- resistivity«
- phenomenological ginzburg«
- nominal superconducting transition«
- cooper pair fluid«
- magnet«
- latent heat«
- electromagnetic free energy«
- free energy«
- liquid nitrogen«
- tin«
- electronic superfluid«
- solid mercury«
- superconducting phase transition«
- niobium nitride«
- tesla«
- experiment«
- normal conductor«
- critical magnetic field«
- superconducting phase«
- landau«
- type ii superconductors«
- internal magnetic field«
- |issue«
- magnesium diboride«
- supercurrent«
- brother fritz«
- gigapascals«
- ybco«
- |doi«
- squid«
- josephson effect«
- low temperature«
- cooper pair«
- heike kamerlingh onnes«
- magnetic particle«
- superfluid«
- spin axis«
- energy gap«
- temperature superconductivity«
- sample«
- superfluidity«
- josephson«
- lanthanum«
- theoretical prediction«
- transition«
- phonons«
- field«
- planck constant«
- ceramic material«
- fluid«
- |volume«
- refrigerant«
- mercury«
- lenz«
- discovery«
- equation«
- carbon nanotube«
- electromagnet«
- energy«
- particle accelerator«
- insulator«
- chemical element«
- law«
- physical property«
- |journal = physica c«
- vortex glass transition temperature«
- vortex glass«
- ultrasensitive bolometer«
- typeii. abrikosov«
- traditional power line«
- tower cost«
- total lcoe.«
- superconductor material class«
- superconducting pnictides«
- superconducting phase free energy«
- superconducting gyroscope«
- stronger magnetic field lead«
- single critical field«
- r=v/i.«
- phonon exchange«
- performance smart grid«
- parameterλ«
- mri/nmr machine«
- microscopic bcs theory«
- measurable degradation«
- magnetic flux quantum φ0=h/(2e«
- magnetic flux field«
- london moment«
- lambda transition universality class«
- k.ca2cu3o8+δ«
- infinite electrical resistance«
- impressive superconducting property«
- hgba2ca2cu3o8+δ«
- hazardous pressure buildup«
- gravity probeb.«
- european superconductivity consortium«
- electrical dc resistance«
- disorder field theory«
- cryotron switch«
- calorimeter photon detector«
- aggressive cooling technique«
- flux«
- alloy«
- effect«
- weak external magnetic field h«
- type ii regime«
- tl substitution«
- titanium supermagnet wire«
- t.g. berlincourt«
- superconductor josephson junction«
- superconducting threshold«
- superconducting niobium wire winding«
- superconducting generator«
- superconducting band«
- si volt«
- range fluctuation«
- r.r. hake«
- paramagnons«
- mri medical imagers«
- material superconducts«
- j.h. wernick«
- j.e. kunzler«
- heavy ionic lattice«
- g.b. yntema«
- fxfeas«
- f.s.l. hsu«
- experimental digital computer«
- cuprate perovskite material«
- constant internal magnetic field«
- conectus«
- complete microscopic theory«
- brian d. josephson«
- bcs wavefunction«
- ba−la−cu−o system«
- consequence«
- transformer«
- wire geometry«
- weinberg model«
- vitaly l. ginzburg«
- vibrational kinetic energy«
- variational argument«
- this—it«
- supermagnets«
- supermagnet material«
- superconducting winding«
- spinning superconductor«
- rapid single flux quantum technology«
- quantum hall resistivity«
- perovskite ceramic material«
- microscopic mechanism responsible«
- major outstanding challenge«
- laofeas«
- josephson device«
- electronic fluid«
- cryogenic line«
- complete ejection«
- abrupt expulsion«
- generalization«
- type i superconductors«
- spontaneous expulsion«
- spintronic device«
- spin fluctuation«
- phenomenological explanation«
- perfect conductivity«
- ordinary conductor«
- ochsenfeld«
- n. n. bogolyubov«
- most pure elemental superconductors«
- monte carlo computer simulation«
- magnetic levitation device«
- london theory«
- featureless sphere«
- e. buehler«
- critical field strength h'c2«
- compound superconductors«
- composite reaction texturing«
- characteristic critical temperature«
- alexei a. abrikosov«
- |journal = nature«
- superstripes«
- superinsulator«
- rutherford cable«
- power storage device«
- perfect electrical conductor«
- normal-«
- michael kosterlitz«
- energy δe«
- computer element«
- applied field rise«
- vactrains«
- tunneling phenomenon«
- thermodynamic phase«
- pigment industry«
- j. robert schrieffer«
- frozen air«
- electronic heat capacity«
- dudley allen buck«
- core electromagnet«
- superconductor classification«
- superconducting current«
- leon n. cooper«
- exotic property«
- cuprate«
- bond theory«
- baroque pattern«
- wah chang corporation«
- unconventional superconductors«
- theoretical condensed matter physicist«
- superfluid transition«
- superconducting electron«
- squid microscope«
- spin ax«
- partial penetration«
- global economic activity«
- fluxons«
- dutch physicist heike kamerlingh onnes«
- typeii«
- temperature jump«
- park effect«
- lev gor'kov«
- exponential behavior«
- electronic hamiltonian«
- color superconductivity«
- organic superconductors«
- lattice ion«
- k. alex müller«
- covalent superconductors«
- applied current«
- anthony j. leggett«
- tunnel barrier«
- sensitive experiment«
- bednorz«
- andreev reflection«
- yba2cu3o7«
- unconventional superconductor«
- superfluid film«
- superconducting transition«
- magnetic vortex«
- isotopic mass«
- critical temperature tc«
- real sample«
- persistent current«
- current limiter«
- current lifetime«
- application«
- schrieffer«
- pair«
- duncan haldane«
- abrikosov«
- fraction«
- lower entropy«
- georg bednorz«
- critical current density«
- mri system«
- mobile phone base station«
- discontinuous jump«
- superconducting coil«
- resistance change«
- magnetic refrigeration«
- low magnetic field«
- powerful electromagnet«
- decrease«
- firmer footing«
- vehicle propulsion«
- kamerlingh onnes«
- david j. thouless«
- phonon interaction«
- normal material«
- national superconducting cyclotron laboratory«
- dimensional extension«
- atomic spectral line«
- theoretical estimate«
- sensitive magnetometer«
- perfect conductor«
- onnes«
- liquid helium temperature«
- underlying material«
- quantum interference device«
- kondo effect«
- vortex line«
- microwave filter«
- ii superconductor«
- copper«
- voltage v«
- cuprates«
- theoretical condensed matter physic«
- magnetic separation«
- phenomenological theory«
- macroscopic quantum phenomenon«
- april8«
- leo esaki«
- wire«
- magnetic sail«
- regime«
- δe«
- quantum mechanical phenomenon«
- ivar giaever«
- microscopic detail«
- photon detector«
- individual electron«
- canonical transformation«
- elementary property«
- diamagnetism«
- metallic conductor«
- experimental discovery«
- conventional theory«
- applied field«
- temperature technology«
- spallation neutron source«
- macroscopic property«
- bardeen«
- superfluids«
- proximity effect«
- relative efficiency«
- great effort«
- josephson junction«
- mri machine«
- startling discovery«
- conductor«
- maglev train«
- joule heating«
- weight advantage«
- class«
- main hypothesis«
- energy dissipation«
- major triumph«
- iron«
- penetration depth«
- temperature t«
- national high magnetic field laboratory«
- magnetic levitation«
- applied magnetic field«
- applied voltage«
- lifetime«
- john bardeen«
- electric power transmission«
- ferromagnetism«
- square centimeter«
- magnetoencephalography«
- technological application«
- cryogenic temperature«
- energy spectrum«
- attractive force«
- tokamak«
- future application«
- characteristic«
- impure«
- magnetic field line«
- stationary phase«
- type«
- region«
- simplest method«
- gibbs free energy«
- westinghouse electric corporation«
- yttrium«
- electric grid«
- current source«
- wide application«
- constituent element«
- lower weight«
- public acceptance«
- strong magnetic field«
- fullerene«
- digital circuit«
- electric arc«
- arc«
- electric discharge«
- discharge«
- spark«
- photoconductivity«
- photoconduction«
- corona discharge«
- corona«
- flashover«
- electric glow«
- brush discharge«
- corposant«
- sparkle«
- Meissner effect«
- FFLO phase«
- Cooper pair«
- 3–4 |pages«
- 10.1038/nature06972«
- 0.7-tesla iron«
- Saint Ulmo's light«
- Saint Elmo's light«
- St. Elmo's fire«
- Saint Ulmo's fire«
- Saint Elmo's fire«
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