PtPb4 is identified as a nonsymmorphic superconductor with spontaneous rotational symmetry breaking and zero-energy vortex bound states consistent with Majorana modes.
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Ta2Pd3Te5 exhibits power-law resistance from Luttinger liquid edge states at low T and semiconducting behavior at high T, enabling a tunable thermometer from millikelvin to room temperature.
The review summarizes experimental approaches including high pressure, point contact, chemical doping, artificial structures, and electric gating to realize topological superconductivity and Majorana zero modes in topological materials.
citing papers explorer
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Discovery of a nonsymmorphic superconductor with spontaneous rotational symmetry breaking and nontrivial zero modes
PtPb4 is identified as a nonsymmorphic superconductor with spontaneous rotational symmetry breaking and zero-energy vortex bound states consistent with Majorana modes.
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Ta2Pd3Te5 topological thermometer
Ta2Pd3Te5 exhibits power-law resistance from Luttinger liquid edge states at low T and semiconducting behavior at high T, enabling a tunable thermometer from millikelvin to room temperature.
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Exploring Topological Superconductivity in Topological Materials
The review summarizes experimental approaches including high pressure, point contact, chemical doping, artificial structures, and electric gating to realize topological superconductivity and Majorana zero modes in topological materials.