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Possible gapless spin liquid in a rare-earth kagom\'{e} lattice magnet Tm₃Sb₃Zn₂O₁₄

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arxiv 1802.00968 v2 pith:GN5TFXQA submitted 2018-02-03 cond-mat.str-el cond-mat.mtrl-sci

Possible gapless spin liquid in a rare-earth kagom\'{e} lattice magnet Tm₃Sb₃Zn₂O₁₄

classification cond-mat.str-el cond-mat.mtrl-sci
keywords magneticheatspinspecificdownkagomlatticeliquid
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report the thermodynamic and muon spin relaxation ($\mu$SR) evidences for a possible gapless spin liquid in Tm$_{3}$Sb$_{3}$Zn$_{2}$O$_{14}$, with the rare-earth ions Tm$^{3+}$ forming a two-dimensional kagom\'{e} lattice. We extract the magnetic specific heat of Tm$_{3}$Sb$_{3}$Zn$_{2}$O$_{14}$ by subtracting the phonon contribution of the non-magnetic isostructural material La$_{3}$Sb$_{3}$Zn$_{2}$O$_{14}$. We obtain a clear linear-$T$ temperature dependence of magnetic specific heat at low temperatures, with the heat-capacity coefficient $\gamma$ = 26.6(1) mJ mol-Tm$^{-1}$ K$^{-2}$ in the zero temperature limit. No long-range magnetic order was observed down to 0.35 K in the heat capacity measurement. A broad hump around 9 K was observed in the zero field magnetic specific heat and is gradually suppressed in the magnetic fields that also create a spin gap in the specific heat. The absence of magnetic order is further confirmed by the $\mu$SR measurement down to 20 mK. We find that the spin-lattice relaxation time remains constant down to the lowest temperatures. We point out that the physics in Tm$_{3}$Sb$_{3}$Zn$_{2}$O$_{14}$ is fundamentally different from the Cu-based herbertsmithite and propose spin liquid ground states with non-Kramers doublets on the kagom\'{e} lattice to account for the experimental results.

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