Direct evidence for charge stripes in a layered cobalt oxide

TL;DR

This study provides direct evidence of stripe-like charge order in a layered cobalt oxide, linking it to magnetic properties and supporting theories of stripe correlations in high-temperature superconductors.

Contribution

It demonstrates the presence of charge stripes in La$_{5/3}$Sr$_{1/3}$CoO$_4$, an insulating cobalt oxide, and connects these stripes to magnetic spectra previously observed.

Findings

Charge stripes are present in La$_{5/3}$Sr$_{1/3}$CoO$_4$.

Stripe order correlates with hourglass magnetic spectrum.

Supports theories of stripe correlations in superconductors.

Abstract

Recent experiments indicate that static stripe-like charge order is generic to the hole-doped copper oxide superconductors and competes with superconductivity. Here we show that a similar type of charge order is present in La$_{5/3}$Sr$_{1/3}$CoO$_4$, an insulating analogue of the copper oxide superconductors containing cobalt in place of copper. The stripe phase we have detected is accompanied by short-range, quasi-one-dimensional, antiferromagnetic order, and provides a natural explanation for the distinctive hourglass shape of the magnetic spectrum previously observed in neutron scattering measurements of La$_{5/3}$Sr$_{1/3}$CoO$_4$ and many hole-doped copper oxide superconductors. The results establish a solid empirical basis for theories of the hourglass spectrum built on short-range, quasi-static, stripe correlations.