Discovery of BKT correlations in the quantum kagome compound Cs2Cu3SnF12

Abstract

We investigate the microscopic properties of the kagome compound Cs2Cu3SnF12 using 63,65Cu nuclear quadrupolar resonance (NQR). Analysis of the local hyperfine fields below the N\'eel temperature TN = 20 K indicates a spin structure consistent with P21/n symmetry of negative vector chirality. Measurements of the spin-lattice relaxation rate T1 -1 reveal signatures of a gapless ground state and two-dimensional Berezinskii-Kosterlitz-Thouless (BKT)-type correlations above TN, extending over a broad temperature range of approximately 130 K in zero magnetic field. Within the same temperature range, the observed increase in the NQR linewidth is consistent with short-range chiral order recently identified by neutron scattering. Our results establish Cs2Cu3SnF12 as a unique quantum kagome system exhibiting BKT behavior.

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