Evidence for $J_{\rm eff} = 0$ ground state and defect-induced spin glass behaviour in the pyrochlore osmate Y$_{2}$Os$_{2}$O$_{7}$

TL;DR

This study combines multiple experimental techniques to demonstrate that Y$_2$Os$_2$O$_7$ has a non-magnetic $J_{eff}=0$ ground state but exhibits defect-induced spin glass behavior, highlighting the role of disorder.

Contribution

It provides evidence for a $J_{eff}=0$ ground state in Y$_2$Os$_2$O$_7$ and links spin glass behavior to disorder effects rather than intrinsic magnetism.

Findings

Non-zero effective magnetic moment due to a small fraction of Os sites.

Spin freezing observed at around 5 K.

Disorder-related effects likely cause the magnetic response.

Abstract

We present AC and DC magnetometry, heat capacity, muon spin relaxation ($\mu$SR) and resonant inelastic X-ray scattering (RIXS) studies of the pyrochlore osmate Y$_2$Os$_2$O$_7$. We observe a non-zero effective moment governed by $\sqrt{f}\mu_{\rm{eff}} = 0.417(1)\,\mu_{\rm{B}}$ where $f$ is the fraction of Os sites which exhibit a spin, and spin freezing at temperature $T_{\rm f} \simeq 5\,$K, consistent with previous results. The field dependence of magnetisation data shows that the paramagnetic moment is most likely due to large moments $\mu_{\rm eff} \simeq 3\,\mu_{\rm B}$ on only a small fraction $f \simeq 0.02$ of Os sites. Comparison of single-ion energy level calculations with the RIXS data yields a non-magnetic $J_{\rm eff} = 0$ ground state on the Os$^{4+}$ sites. The spin-orbit interaction, Hund's coupling and trigonal distortion of OsO$_{6}$ octahedra are all important in modelling the experimentally observed spectra. We are able to rule out impurity effects, leaving disorder-related effects such as oxygen non-stoichiometry or site interchange between Os and Y ions as the most plausible explanation for the magnetic response in this material.