Multiple Magnetic Transitions in the Trilayer Nickelate Pr4Ni3O10 Revealed by Muon-Spin Rotation
Abstract
A muon-spin rotation/relaxation (μSR) study of the trilayer Ruddlesden--Popper nickelate Pr4Ni3O10 was performed at ambient pressure and under hydrostatic pressure up to 2.2 GPa. Three magnetic transitions were identified at ambient pressure: the onset of spin-density-wave (SDW) order at T SDW 158 K, an intermediate-temperature transition at T 90--100 K, and a low-temperature transition at T SDW Pr 25--27 K. While the intermediate transition at T induces only minor changes in the internal-field distribution, the transition at T SDW Pr is accompanied by a pronounced reconstruction of the magnetic structure, consistent with previous reports attributing enhanced interlayer coherence to the ordering of the Pr sublattice. The high-temperature transition at T SDW is characterized by the sharp development of static internal magnetic fields with a narrow transition width of 0.65(4) K. Weak-transverse-field measurements reveal a finite thermal hysteresis of 0.27(6) K, with T SDW warming > T SDW cooling, indicating weakly first-order-like behavior. Hydrostatic pressure suppresses T SDW linearly and reduces the ordered Ni magnetic moment M, with corresponding rates of dT SDW/ dp = -4.9(1) K/GPa and d M/ dp = -2.0(5)×10-2 GPa-1, respectively, thereby demonstrating a gradual weakening of the spin-density-wave instability under compression.
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