Electron doping enhances s±-wave superconductivity in bulk La3Ni2O7 and its heterostructure with La3Al2O7, yielding highest Tc in the underdoped heterostructure via inter-orbital d_x2-y2 and d_z2 cooperation.
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Localized Zhang-Rice singlets from doped holes generate emergent J2 and J3 superexchanges that produce magnetic frustration, collapsing Néel order and driving spin-glass behavior on the hole-doped side of cuprates.
citing papers explorer
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Enhanced $s^\pm$-wave superconductivity in electron-doped La$_3$Ni$_2$O$_7$
Electron doping enhances s±-wave superconductivity in bulk La3Ni2O7 and its heterostructure with La3Al2O7, yielding highest Tc in the underdoped heterostructure via inter-orbital d_x2-y2 and d_z2 cooperation.
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Frustration from Localized Zhang-Rice States: A Unified Theory of Doping-Driven Magnetic Transitions in Cuprates
Localized Zhang-Rice singlets from doped holes generate emergent J2 and J3 superexchanges that produce magnetic frustration, collapsing Néel order and driving spin-glass behavior on the hole-doped side of cuprates.