Double magnetic transitions and exotic field induced phase in the triangular lattice antiferromagnets Sr$_3$Co(Nb,Ta)$_2$O$_9$

TL;DR

This study investigates the magnetic properties of two triangular lattice antiferromagnets, revealing two-step magnetic transitions, a 1/3 magnetization plateau, and an exotic gapless field-induced phase with power-law heat capacity behavior.

Contribution

The paper reports the synthesis and detailed magnetic characterization of Sr$_3$Co(Nb,Ta)$_2$O$_9$, uncovering novel field-induced phases and low-temperature behaviors not previously observed in similar frustrated magnets.

Findings

Two-step magnetic transitions at low temperatures.

Observation of a 1/3 magnetization plateau in Sr$_3$CoNb$_2$O$_9$.

Exotic high-field regime with gapless excitations in Sr$_3$CoTa$_2$O$_9$.

Abstract

Two triangular lattice antiferromagnets Sr$_3$Co(Nb,Ta)$_2$O$_9$ with an effective $j_{\rm eff}=1/2$ of Co$^{2+}$ are synthesized and their magnetic properties are investigated via magnetization and heat capacity measurements. The leading in-plane antiferromagnetic exchange coupling is estimated to be $J/k_{\rm B} \simeq 4.7$ K and 5.8 K, respectively. Both the compounds feature two-step magnetic transitions at low temperatures [($T_{\rm N1} \simeq 1.47$ K and $T_{\rm N2} \simeq 1.22$ K) and ($T_{\rm N1} \simeq 0.88$ K and $T_{\rm N2} \simeq 0.67$ K), respectively], driven by weak easy-axis anisotropy. Under magnetic field Sr$_3$CoNb$_2$O$_9$ evinces a plateau at $1/3$ magnetization. Interestingly, the high field magnetization of Sr$_3$CoTa$_2$O$_9$ reveals an exotic regime (between $H_{\rm S1}$ and $H_{\rm S2}$), below the fully polarized state in which the heat capacity at low temperatures is governed by a power law ($C_{\rm p} \propto T^{\alpha}$) with a reduced exponent $\alpha \simeq 2$. These results demonstrate an unusual field induced state with gapless excitations in the strongly frustrated magnet Sr$_3$CoTa$_2$O$_9$. The complete $T-H$ phase diagram is discussed for both the compounds.