Low-temperature electrical transport in bilayer manganite La$_{1.2}$Sr$_{1.8}$Mn$_{2}$O$_{7}$

TL;DR

This study investigates the temperature and magnetic field dependence of anisotropic resistivities in bilayer manganite La$_{1.2}$Sr$_{1.8}$Mn$_{2}$O$_{7}$, revealing two-magnon scattering in the metallic regime and weak localization effects at lower temperatures.

Contribution

It provides detailed analysis of resistivity behavior and confirms the two-magnon scattering mechanism and three-dimensional metallic nature in this bilayer manganite.

Findings

Resistivities follow a $T^{9/2}$ dependence in the metallic regime.

The proportionality coefficient and exchange interaction ratios agree with theoretical models.

Conductivities obey a $T^{1/2}$ dependence at low temperatures, indicating weak localization.

Abstract

The temperature $T$ and magnetic field $H$ dependence of anisotropic in-plane $\rho_{ab}$ and out-of-plane $\rho_{c}$ resistivities have been investigated in single crystals of the bilayer manganite La$_{1.2}$Sr$_{1.8}$Mn$_{2}$O$_{7}$. Below the Curie transition temperature $T_c=$ 125 K, $\rho_{ab}$ and $\rho_{c}$ display almost the same temperature dependence with an up-turn around 50 K. In the metallic regime (50 K $\leq T \leq$ 110 K), both $\rho_{ab}(T)$ and $\rho_{c}(T)$ follow a $T^{9/2}$ dependence, consistent with the two-magnon scattering. We found that the value of the proportionality coefficient $B_{ab}^{fit}$ and the ratio of the exchange interaction $J_{ab}/J_c$ obtained by fitting the data are in excellent agreement with the calculated $B_{ab}$ based on the two-magnon model and $J_{ab}/J_c$ deduced from neutron scattering, respectively. This provides further support for this scattering mechanism. At even lower $T$, in the non-metallic regime ($T<$ 50 K), {\it both} the in-plane $\sigma_{ab}$ and out-of-plane $\sigma_{c}$ conductivities obey a $T^{1/2}$ dependence, consistent with weak localization effects. Hence, this demonstrates the three-dimensional metallic nature of the bilayer manganite La$_{1.2}$Sr$_{1.8}$Mn$_{2}$O$_{7}$ at $T<T_c$.