Stripeless incommensurate magnetism in a doped strongly correlated oxide

A. T. Savici; I. A. Zaliznyak; G. D. Gu; R. Erwin

arXiv:cond-mat/0608575·cond-mat.str-el·June 13, 2007

Stripeless incommensurate magnetism in a doped strongly correlated oxide

A. T. Savici, I. A. Zaliznyak, G. D. Gu, R. Erwin

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TL;DR

This study reveals isotropic short-range incommensurate magnetic order in doped La1.5Sr0.5CoO4, challenging stripe model expectations and indicating a different underlying magnetic structure.

Contribution

It demonstrates that the magnetic diffuse scattering in doped La1.5Sr0.5CoO4 is isotropic, contradicting stripe model predictions of anisotropy.

Findings

01

Magnetic diffuse scattering is isotropic in the a-b plane.

02

Charge segregation does not favor linear stacking faults.

03

Results challenge the stripe model in this material.

Abstract

We studied the nano-scale structure of the short-range incommensurate magnetic order in La1.5Sr0.5CoO4 by elastic neutron scattering. We find that magnetic diffuse scattering is isotropic in the a-b plane, in contrast with the naive expectation based on the popular stripe model. Indeed, charge segregation into lines favoring certain lattice direction(s) would facilitate linear stacking faults in an otherwise robust antiferromagnetism of un-doped material, leading to anisotropic disorder, with a characteristic symmetry pattern present in the neutron scattering data.

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