Oxygen-vacancy doping induces metallic conduction and ferromagnetic order (Tc up to 11 K) in EuTiO3, producing a phase diagram distinct from cation-doped versions, supported by magnetization, DFT, diffuse scattering, and specific heat.
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AgI (110) hosts a robust persistent spin texture with effectively infinite spin lifetime plus sizable intrinsic spin and orbital Hall conductivities, expanding PST materials beyond chalcogen compounds.
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Tuning charge-transport properties and magnetic order in metallic EuTiO$_{3-\delta}$
Oxygen-vacancy doping induces metallic conduction and ferromagnetic order (Tc up to 11 K) in EuTiO3, producing a phase diagram distinct from cation-doped versions, supported by magnetization, DFT, diffuse scattering, and specific heat.
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Persistent Spin Texture and Spin-Orbital Hall Responses on the AgI (110) Surface
AgI (110) hosts a robust persistent spin texture with effectively infinite spin lifetime plus sizable intrinsic spin and orbital Hall conductivities, expanding PST materials beyond chalcogen compounds.