Negative vector chirality 120◦ spin structure in the defect- and distortion-free quantum kagome antiferromagnet YCu3(OH)6Cl3 [dataset]

Matjaž Gomilšek
The magnetic ground state of the ideal quantum kagome antiferromagnet (QKA) has been a long-standing puzzle, mainly because perturbations to the nearest-neighbor isotropic Heisenberg Hamiltonian can lead to various fundamentally different ground states. Here we investigate a recently synthesized QKA representative, YCu3(OH)6Cl3, in which perturbations commonly present in real materials, like lattice distortion and intersite ion mixing, are absent. Nevertheless, this compound enters a long-range magnetically ordered state below TN = 15K. Our powder neutron...
This data repository is not currently reporting usage information. For information on how your repository can submit usage information, please see our documentation.