Influence of flat bands on RKKY interaction: perspective of Fano defects

TL;DR

This paper explores how flat electronic bands affect RKKY magnetic interactions by transforming the problem into a Fano defect framework, revealing unique decay behaviors and sign changes in gapless systems.

Contribution

It introduces a coordinate transformation mapping flat-band systems to a Fano-Anderson model, providing new understanding of RKKY interactions influenced by flat bands.

Findings

Anomalous decay occurs only in gapless spectra.

Sign of RKKY interactions can change unexpectedly.

Flat bands significantly alter carrier-mediated exchange interactions.

Abstract

In this paper, we revisit the effect of flat bands on the Ruderman-Kittel-Kasuya-Yosida (RKKY) interaction by using a coordinate transformation that detangles flat-band states from dispersive ones. Under this transformation, original flat-band systems containing magnetic impurities are mapped onto a generalized Fano-Anderson model, where flat-band states act as Fano defects. From this perspective, several features of exact RKKY couplings calculated numerically can be understood easily. As an illustrative example, we analyze a dimerized diamond chain model, which can exhibit either gapped or gapless spectra depending on the ratio of hopping integrals. We find that anomalous decay in the RKKY couplings arises exclusively in the gapless case and with specific magnetic coupling configurations. Furthermore, the conventional wisdom regarding the signs of RKKY interactions breaks down under certain conditions. These subtleties arising from flat bands find explanation within our present approach. Our investigation offers deeper insights into how flat bands influence carrier-mediated exchange interactions, with implications extending to broader contexts.