Superconductivity emerging from the N\'eel state in infinite- stage single-layer cuprate La2CuO4+δ

Abstract

In copper oxides (cuprates) with single CuO2 layer such as La2-xBa(Sr)xCuO4, antiferromagnetism coexists with superconductivity at small doping levels x, where chemical disorders are significant. Here, we report that superconductivity occurs in a uniform and fully ordered N\'eel state in a single-layer cuprate La2CuO4+δ with a small amount of excess oxygen (δ = 0.015) as demonstrated by the 139La nuclear quadrupole resonance measurement. A uniform oxygen distribution in the crystal is crucial for achieving microscopic phase coexistence and overcoming the miscibility gap associated with the staging instability; self-organized periodic oxygen arrangement driven by mobile oxygen atoms. This finding prompts the reconsideration of superconductivity in cuprates, highlighting that it can emerge in a robust N\'eel state that retains sizable magnetic moments and hosts only a small carrier density.