Field-Induced Quantum Phase Transitions in the Spin-1/2 Triangular- Lattice Antiferromagnet Cs2CuBr4

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Abstract

In classical magnetic spin systems, geometric frustration leads to a large number of states of identical energy. We report here evidence from magnetocaloric and related measurements that in Cs2CuBr4 — a geometrically frustrated Heisenberg S= 1/2 triangular antiferromagnet — quantum fluctuations stabilize a series of gapped collinear spin states bounded by first-order transitions at simple increasing fractions of the saturation magnetization for fields directed along the c axis. Only the first of these quantum phase transitions has been theoretically predicted, suggesting that quantum effects continue to dominate at fields much higher than previously considered.

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last seen: 2026-05-11T08:05:27.898613+00:00
License: CC0 · commercial use OK