Scanning SQUID microscopy visualizes vortex clusters in weakly pinned CaSb2 showing enhanced boundary susceptibility and suppressed internal dynamics, indicating physics beyond single-band type-II theories.
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2 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.supr-con 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A peak in zero-temperature magnetic penetration depth versus local Tc reveals a magnetic quantum critical point embedded within the superconducting state of Zn-doped CeCoIn5.
citing papers explorer
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Visualizing Vortex Cluster Dynamics in the Weak Type-II Superconductor CaSb$_2$
Scanning SQUID microscopy visualizes vortex clusters in weakly pinned CaSb2 showing enhanced boundary susceptibility and suppressed internal dynamics, indicating physics beyond single-band type-II theories.
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Magnetic Quantum Criticality inside the Superconducting State Revealed by Penetration Depth Scaling with Local $T_{\mathrm c}$
A peak in zero-temperature magnetic penetration depth versus local Tc reveals a magnetic quantum critical point embedded within the superconducting state of Zn-doped CeCoIn5.