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Spiral order from orientationally correlated random bonds in classical XY models

Andrea Scaramucci, Hiroshi Shinaoka, Maxim Mostovoy, Rui Lin, Christopher Mudry, Markus Müller

2020Repository for Publications and Research Data (ETH Zurich)19 citationsDOIOpen Access PDF

Abstract

We discuss the stability of ferromagnetic long-range order in three-dimensional classical XY ferromagnets upon substitution of a small subset of equally oriented bonds by impurity bonds, on which the ferromagnetic exchange J⊥>0 is replaced by a strong antiferromagnetic coupling Jimp<0. In the impurity-free limit, the effective low-energy Hamiltonian is that of spin waves. In the presence of a single, sufficiently strongly frustrating impurity bond, the ground state is twofold degenerate, corresponding to either clockwise or counterclockwise canting of the spins in the vicinity of the impurity bond. For a small but finite concentration of impurity bonds, the effective low-energy Hamiltonian is that of Ising variables encoding the sense of rotation of the local canting around the impurities. Those degrees of freedom interact pairwise through a dipolar interaction mediated by spin waves. A spatially random distribution of impurities leads to a ferromagnetic Ising ground state, which indicates the instability of the XY ferromagnet towards a spiral state, with wave vector and transition temperature both proportional to the concentration of impurity bonds. This mechanism of spiral order by disorder is relevant for magnetic materials such as YBaCuFeO5, for which our theory predicts a ratio between the spiral ordering temperature and the modulus of the spiral wave vector close to the measured ones.

Topics & Concepts

AntiferromagnetismCondensed matter physicsIsing modelGround statePhysicsFerromagnetismSpinsImpurityHamiltonian (control theory)ChemistryQuantum mechanicsMathematicsMathematical optimizationPhysics of Superconductivity and MagnetismAdvanced Condensed Matter PhysicsMagnetic properties of thin films
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