Multipolar multiferroics in $4d^2$/$5d^2$ Mott insulators
Abstract
We extend the concept of conventional multiferroicity \ -- where ferroelectric and ferromagnetic orders coexist \ -- to include multipolar degrees of freedom. Specifically, we explore how this phenomenon emerges in Mott insulators with strong spin-orbit and Hund's couplings. Our study uncovers the origin of magnetic multipolar interactions in these systems and demonstrates that a combination of quadrupolar and octupolar magnetic order can simultaneously induce both electrical quadrupolar moments and ferroelectric polarization. By expanding the multiferroic framework to higher-order multipoles, we reveal the possibility of coexisting multipolar orders of different or same ranks, paving the way for new functional properties in a large class of strongly correlated materials.
Keywords
Cite
@article{arxiv.2408.17389,
title = {Multipolar multiferroics in $4d^2$/$5d^2$ Mott insulators},
author = {Saikat Banerjee and Stephan Humeniuk and Alan R. Bishop and Avadh Saxena and Alexander V. Balatsky},
journal= {arXiv preprint arXiv:2408.17389},
year = {2025}
}
Comments
Major revision and restructured version. 7+11 pages, and 6 figures