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H–T phase diagram for the giant magnetic flux jumps in low temperature superconductors and high temperature superconductors
17
Citations
9
References
1998
Year
Superconducting MaterialMagnetic PropertiesHigh Temperature SuperconductorsEngineeringMagnetic MaterialsMagnetoresistanceCritical CurrentsMagnetismSuperconductivityHigh Tc SuperconductorsMicromagneticsSuperconducting DevicesFlux JumpsLow-temperature SuperconductivityLow Temperature SuperconductorsHigh-tc SuperconductivityPhysicsFlux InstabilitiesMagnetoelasticityHysteresisMagnetothermal InstabilitiesMagnetic MaterialH–t Phase DiagramFerromagnetismHigh-temperature SuperconductivityNatural SciencesCondensed Matter PhysicsApplied PhysicsMagnetic Property
We have studied magnetothermal instabilities both theoretically and experimentally. Magnetostriction and magnetization hysteresis loops with flux jumps were calculated over a wide range of experimental parameters employing three critical state models: the original Bean model, the Kim–Anderson model, and the exponential model. The influence of the magnetic prehistory on the flux jumps, magnetostriction, and the magnetization was investigated for the LaSrCuO crystal. H–T diagrams of flux instabilities were constructed from calculation and from experimental results. One can see good qualitative agreement between these two diagrams.
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