Long-range magnetic order in the anisotropic triangular lattice system CeCd3As3

TL;DR

This study uncovers long-range magnetic order in CeCd3As3, a triangular lattice system with strong anisotropy, revealing magnetic frustration effects and structural transitions without Kondo behavior.

Contribution

It provides the first detailed investigation of magnetic ordering and frustration in CeCd3As3, highlighting its anisotropic properties and structural anomalies.

Findings

CeCd3As3 exhibits long-range magnetic order below 0.42 K.

Magnetic frustration influences the magnetic specific heat behavior.

Structural transition occurs around 136 K in CeCd3As3.

Abstract

We report the physical properties of $R$Cd$_{3}$As$_{3}$ ($R$ = La and Ce) compounds, crystallized into a hexagonal ScAl$_{3}$C$_{3}$-type structure ($P$6$_{3}$/mmc) such that the $R$ sublattice forms a spin-orbit coupled triangular lattice. Magnetic susceptibility measurements indicate the 4$f$ electrons of Ce$^{3+}$ ions are well localized and reveal a large magnetic anisotropy. The electrical resistivity and specific heat measurement for $R$Cd$_{3}$As$_{3}$ exhibit an anomaly at high temperatures ($T_{0}$ $\sim$ 63 K for $R$ = La and $T_{0}$ $\sim$ 136 K for $R$ = Ce), most likely due to a structural transition. Specific heat measurements for CeCd$_{3}$As$_{3}$ clearly indicate a long range magnetic order below $T_{N}$ = 0.42 K. Although the magnetic contribution to the specific heat $C_{m}/T$ increases significantly below $\sim$ 10 K, the electrical resistivity for CeCd$_{3}$As$_{3}$ follows typical, metallic behavior inconsistent with Kondo lattice systems. In CeCd$_3$As$_3$ only $\sim$ 40 $\%$ of the $R \ln(2)$ magnetic entropy is recovered by $T_N$ and the $R$ln(2) entropy is fully achieved at about the Curie-Weiss temperature $|\theta_{p}|$. Unusually, based on our current investigations, the magnetic specific heat below $|\theta_{p}|$ is not attributed to a Kondo contribution, but rather associated with the magnetic ordering and frustration on the triangular lattice. Specific heat measurements in applied magnetic field show a negligible variation of $T_{N}$ for $H \parallel c$, whereas a suppression of $T_{N}$ is observed above 40 kOe for $H \parallel ab$. Such behavior is consistent with the application a magnetic field within the $ab$-plane breaking the triangular symmetry and partially relieving the magnetic frustration in this system.