Flux Fractionalization Transition in Anisotropic S=1 Antiferromagnets and Dimer-Loop Models
We demonstrate that the low-temperature (T) properties of a class of anisotropic spin S=1 kagome (planar pyrochlore) antiferromagnets on a field-induced 1/3-magnetization (1/2-magnetization) plateau are described by a model of fully packed dimers and loops on the honeycomb (square) lattice, with a t...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English |
| Published: |
American Physical Society
2025-01-01
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| Series: | Physical Review X |
| Online Access: | http://doi.org/10.1103/PhysRevX.15.011018 |
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| Summary: | We demonstrate that the low-temperature (T) properties of a class of anisotropic spin S=1 kagome (planar pyrochlore) antiferromagnets on a field-induced 1/3-magnetization (1/2-magnetization) plateau are described by a model of fully packed dimers and loops on the honeycomb (square) lattice, with a temperature-dependent relative fugacity w(T) for the dimers. The fully packed O(1) loop model (w=0) and the fully packed dimer model (w=∞) limits of this dimer-loop model are found to be separated by a phase transition at a finite and nonzero critical fugacity w_{c}, with interesting consequences for the spin correlations of the frustrated magnet. The w>w_{c} phase has short loops and spin correlations dominated by power-law columnar order (with subdominant dipolar correlations), while the w<w_{c} phase has dominant dipolar spin correlations and long loops governed by a power-law distribution of loop sizes. Away from w_{c}, both phases are described by a long-wavelength Gaussian effective action for a scalar height field that represents the coarse-grained electrostatic potential of fluctuating dipoles. The destruction of power-law columnar spin order below w_{c} is driven by an unusual flux fractionalization mechanism, topological in character but quite distinct from the usual Kosterlitz-Thouless mechanism for such transitions: Fractional electric fluxes which are bound into integer values for w>w_{c}, proliferate in the w<w_{c} phase and destroy power-law columnar order. |
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| ISSN: | 2160-3308 |