Pressure Effect on the Spin Density Wave Transition in La2PrNi2O6.96

Abstract

High-pressure studies reveal a stark contrast between the superconducting properties of double-layer Ruddlesden-Popper (RP) nickelates La2PrNi2O7 and La3Ni2O7. While La2PrNi2O7 exhibits bulk superconductivity, La3Ni2O7 displays filamentary behavior, suggesting that superconductivity is confined to phase interfaces rather than the bulk. Since magnetism emerges near the superconducting phase, understanding its differences in La3Ni2O7 and La2PrNi2O7 is essential for clarifying their underlying electronic and magnetic properties. In this work we study the magnetic responce of La2PrNi2O6.96 under pressures up to 2.3 GPa using the muon-spin rotation/relaxation (μSR) technique. The application of external pressure increases the N\'eel temperature T N from approximately 161 K at ambient pressure (p=0) to about 170 K at p=2.3 GPa. The temperature dependence of the internal magnetic field B int(T) (i.e., the magnetic order parameter) follows the power-law relation B int = B int(0) (1 - [T/T N]α )β, with consistent exponent values of α 1.95 and β 0.35 across different pressures. The value of the ordered moments at the Ni sites, which is proportional to B int, remain unaffected by pressure. Our findings suggest that the magnetic properties of double-layer RP nickelate La3Ni2O7 are broadly unaffected by Pr to La substitution.

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