PbTaSe₂ exhibits intrinsic plasmonic hyperbolic response in the visible-NIR range with anisotropy parameter |R| ≈ 231 and quality factor Q_max ≈ 2.8 at 0.78 eV.
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Electrochemical oxidation strips Pb from Au2PbP2 to produce the polar noncentrosymmetric superconductor Au2Pb0.914P2 with Tc=1.52 K via Jahn-Teller-driven structural rearrangement.
AMTe4 (A=Ta,Nb; M=Ir,Rh) compounds host Weyl points within a few meV of the Fermi energy, including multiple types such as type-I, II, and III in NbRhTe4, substantially revising the topological electronic structure.
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Visible-NIR-Frequency Hyperbolic Response in Nodal-Line Semimetal PbTaSe$_2$
PbTaSe₂ exhibits intrinsic plasmonic hyperbolic response in the visible-NIR range with anisotropy parameter |R| ≈ 231 and quality factor Q_max ≈ 2.8 at 0.78 eV.
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Stripping Symmetry: Electrochemical Oxidation to a Superconducting Polar Metal in Au2Pb0.914P2
Electrochemical oxidation strips Pb from Au2PbP2 to produce the polar noncentrosymmetric superconductor Au2Pb0.914P2 with Tc=1.52 K via Jahn-Teller-driven structural rearrangement.
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Fermi energy Weyl nodes in $\mathbf{AM}$Te$_4$ ($\mathbf{A}$=Ta, Nb, $\mathbf{M}$=Ir, Rh)
AMTe4 (A=Ta,Nb; M=Ir,Rh) compounds host Weyl points within a few meV of the Fermi energy, including multiple types such as type-I, II, and III in NbRhTe4, substantially revising the topological electronic structure.