Continuous Charge Modulated Diagonal Phase in Manganites

TL;DR

This paper introduces a new ground state in manganese oxides characterized by a continuous, charge-modulated diagonal phase stabilized by electron-phonon interactions, with specific magnetic and orbital properties, explaining recent experimental observations.

Contribution

It proposes a novel diagonal charge-ordered ground state in manganites, elucidating its stabilization mechanisms and magnetic structure, advancing understanding of charge modulation phenomena.

Findings

The diagonal phase is the ground state for certain physical parameters.

Charge modulation amplitude is small compared to ionic charge separation.

The phase features antiferromagnetic zig-zag chains and specific orbital arrangements.

Abstract

We present a novel ground state that explain the continuous modulated charge diagonal order recently observed in manganese oxides, at hole densities $x$ larger than one half. In this diagonal phase the charge is modulated with a predominant Fourier component inversely proportional to $1-x$. Magnetically this state consist of antiferromagnetic coupled zig-zag chains. For a wide range of relevant physical parameters as electron-phonon coupling, antiferromagnetic interaction between Mn ions and on-site Coulomb repulsion, the diagonal phase is the ground state of the system. The diagonal phase is favored by the modulation of the hopping amplitude along the zig-zag chains, and it is stabilized with respect to the one dimensional straight chain by the electron phonon coupling. For realistic estimation of the physical parameters, the diagonal modulation of the electron density is only a small fraction of the average charge, a modulation much smaller than the obtained by distributing Mn$^{+3}$ and Mn$^{+4}$ ions. We discuss also the spin and orbital structure properties of this new diagonal phase.