Anomalous continuum scattering and higher-order van Hove singularity in the strongly anisotropic S = 1/2 triangular lattice antiferromagnet
| Autor: | Park, Pyeongjae, Ghioldi, E. A., May, Andrew F., Kolopus, James A., Podlesnyak, Andrey A., Paddison, Joseph A. M., Batista, Cristian D., Trumper, A. E., Manuel, L. O., Stone, Matthew B., Halasz, Gabor B., Christianson, Andrew D. |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | The S = 1/2 triangular lattice antiferromagnet (TLAF) stands out as a paradigmatic example of frustrated quantum magnetism. An ongoing challenge involves understanding the influence of exchange anisotropy on the collective behavior within such systems. Using inelastic neutron scattering (INS) and advanced calculation techniques, we have studied the low and high temperature spin dynamics of Ba2La2CoTe2O12 (BLCTO): a Co2+-based Jeff = 1/2 TLAF that exhibits 120 deg order below TN = 3.26 K. The spin Hamiltonian was determined by fitting the energy-resolved paramagnetic excitations measured at T > TN, revealing an exceptionally strong easy-plane XXZ exchange anisotropy. Below TN, the excitation spectrum exhibits a high energy continuum having a larger spectral weight than the single-magnon modes. Combined with advanced theoretical calculations of magnetic excitations based on magnons and spinons, this observation suggests a scenario characterized by a spinon confinement length that markedly exceeds the lattice spacing. We conjecture that this phenomenon arises due to the proximity to a quantum melting point, which persists even in the presence of strong easy-plane XXZ anisotropy. Finally, we highlight characteristic flat features in the excitation spectrum, which are connected to higher-order van Hove singularities in the magnon dispersion and are directly induced by easy-plane XXZ anisotropy. Our results provide a rare experimental insight into the nature of highly anisotropic S = 1/2 TLAFs between the Heisenberg and XY limits. Comment: 5 figures |
| Databáze: | arXiv |
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