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Hybrid d/p-wave altermagnetism in Ca3Ru2O7 and strain-controlled spin splitting

Andrea León, Carmine Autieri, Thomas Brumme, J. W. González

2025npj Quantum Materials12 citationsDOIOpen Access PDF

Abstract

Abstract The interplay of strong electronic correlations, sizable octahedral distortions, and pronounced spin-orbit coupling (SOC) makes perovskite oxides promising candidates for realizing altermagnetic phases. We study altermagnetic phases in Ca 3 Ru 2 O 7 , a non-centrosymmetric layered perovskite whose ground state is a Kramers-degenerate antiferromagnet. We show that an alternative Néel-type spin arrangement hosts a P-2 d -wave altermagnetic state with orbital selectivity similar to Ca 2 RuO 4 . Including SOC generates a symmetry-allowed p -wave component and yields a hybrid d / p -wave altermagnetic order. We further demonstrate that biaxial strain tunes both magnetic stability and band splitting: compressive strain beyond 2% favors the altermagnetic phase over the antiferromagnetic ground state, while tensile strain increases altermagnetic splittings by up to 9%. To quantify these trends, we define an altermagnetic figure of merit and trace its strain dependence to changes in electronic localization and octahedral geometry in this polar metal.

Topics & Concepts

Perovskite (structure)AntiferromagnetismCondensed matter physicsGround stateOctahedronCoupling (piping)Materials scienceElectronic structurePhase (matter)Spin (aerodynamics)Figure of meritStrain (injury)FerromagnetismPhysicsPolarDeformation (meteorology)Electronic band structureMagnetic structureSpin statesBand gapManganiteUltimate tensile strengthStructural stabilityInductive couplingChemistryAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materialsPhysics of Superconductivity and Magnetism
Hybrid d/p-wave altermagnetism in Ca3Ru2O7 and strain-controlled spin splitting | Litcius