# Boundary-limited and glassy-like phonon thermal conduction in   EtMe$_3$Sb[Pd(dmit)$_2$]$_2$

**Authors:** Minoru Yamashita

arXiv: 1905.08420 · 2020-07-15

## TL;DR

This study reveals two distinct phonon thermal conduction behaviors in EtMe$_3$Sb[Pd(dmit)$_2$]$_2$, with some crystals showing glassy-like phonon transport and others exhibiting boundary-limited conduction, impacting the interpretation of magnetic excitations.

## Contribution

It demonstrates the coexistence of boundary-limited and glassy-like phonon thermal conduction in the same material, highlighting the importance of sample quality for magnetic excitation studies.

## Key findings

- Crystals with residual linear thermal conductivity show boundary-limited phonon transport.
- Crystals without residual linear term exhibit glassy-like phonon conduction.
- Sample quality influences phonon mean free path and thermal conductivity behavior.

## Abstract

In molecular-based quantum-spin-liquid candidate EtMe$_3$Sb[Pd(dmit)$_2$]$_2$ with two-dimensional $S$=1/2 triangular lattice, a finite residual linear term in the thermal conductivity, $\kappa_0/T\equiv\kappa/T (T \rightarrow 0)$, has been observed and attributed to the presence of itinerant gapless excitations. Here we show that the data of $\kappa$ measured in several single crystals are divided into two groups with and without the residual linear term. In the first group with finite $\kappa_0/T$, the phonon thermal conductivity $\kappa_{ph}$ is comparable to that of other organic compounds. In these crystals, the phonon mean free path $\ell_{ph}$ saturates at low temperatures, being limited by sample size. On the other hand, in the second group with zero $\kappa_0/T$, $\kappa_{ph}$ is one order of magnitude smaller than that in the first group, comparable to that of amorphous solids. In contrast to the first group, $\ell_{ph}$ shows a glassy-like non-saturating behavior at low temperatures. These results suggest that the crystals with long $\ell_{ph}$ are required to discuss the magnetic excitations by thermal conductivity measurements.

## Full text

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## Figures

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## References

37 references — full list in the complete paper: https://tomesphere.com/paper/1905.08420/full.md

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Source: https://tomesphere.com/paper/1905.08420