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Thermodynamic Properties of the Quantum Spin Liquid Candidate ZnCu$_{3}$(OH)$_{6}$Cl$_{2}$ in High Magnetic Fields

We report measurements of the specific heat and magnetization of single crystal samples of the spin-1/2 kagome compound ZnCu$_{3}$(OH)$_{6}$Cl$_{2}$ (herbertsmithite), a promising quantum spin-liquid candidate, in high magnetic fields and at low temperatures. The magnetization was measured up to $μ_{0}H$ = 55 T at $T$ = 0.4 K, showing a saturation of the weakly interacting impurity moments in fields above $\sim10$ T. The specific heat was measured down to $T < 0.4$ K in magnetic fields up to 18 T, revealing $T$-linear and $T$-squared contributions. The $T$-linear contribution is surprisingly large and indicates the presence of gapless excitations in large applied fields. These results further highlight the unusual excitation spectrum of the spin liquid ground state of herbertsmithite.

preprint2014arXivOpen access
Tian-Heng HanRobin ChisnellCraig J. BonnoitDanna E. FreedmanVivien S. ZapfNeil HarrisonDaniel G. NoceraYasu TakanoYoung S. Lee
cond-mat.str-el
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Tian-Heng HanRobin ChisnellCraig J. BonnoitDanna E. FreedmanVivien S. ZapfNeil HarrisonDaniel G. NoceraYasu TakanoYoung S. Lee

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