Campbell penetration depth in CeCoIn5 deviates from √H dependence with abrupt slope changes and yields nearly T-linear J_c(T), interpreted as evidence for unconventional superconductivity via vortex lattice effects.
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cond-mat.supr-con 2years
2026 2verdicts
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Buffer-layer roughness in MgB2 films produces stronger pinning, higher breakdown currents, and normal-domain-driven resistive transitions compared to columnar defects, as shown by I-V measurements and TDGL simulations.
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Campbell penetration depth in a single crystal of heavy fermion superconductor CeCoIn$_5$
Campbell penetration depth in CeCoIn5 deviates from √H dependence with abrupt slope changes and yields nearly T-linear J_c(T), interpreted as evidence for unconventional superconductivity via vortex lattice effects.
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Crystal structure effects on vortex dynamics in superconducting MgB$_2$ thin films
Buffer-layer roughness in MgB2 films produces stronger pinning, higher breakdown currents, and normal-domain-driven resistive transitions compared to columnar defects, as shown by I-V measurements and TDGL simulations.