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.
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Polarization-dependent ARPES on low-substituted BaFe2-xMxAs2 (M=Cr,Co,Cu,Ru,Mn) shows hole-pocket sizes largely unchanged while electron-pocket trends correlate with T_SDW suppression via Fe-As bond length changes affecting planar states.
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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.
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Orbital-Selective Band Structure Evolution in BaFe$_{2-x}$M$_x$As$_2$ (M = Cr, Co, Cu, Ru and Mn) Probed by Polarization-Dependent ARPES
Polarization-dependent ARPES on low-substituted BaFe2-xMxAs2 (M=Cr,Co,Cu,Ru,Mn) shows hole-pocket sizes largely unchanged while electron-pocket trends correlate with T_SDW suppression via Fe-As bond length changes affecting planar states.