Magnonics vs. Ferronics

Gerrit E.W. Bauer; Ping Tang; Ryo Iguchi; and Kenichi Uchida

arXiv:2106.12775·cond-mat.mes-hall·October 4, 2021

Magnonics vs. Ferronics

Gerrit E.W. Bauer, Ping Tang, Ryo Iguchi, and Kenichi Uchida

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TL;DR

This paper compares magnons in magnetic materials with ferrons in ferroelectric materials, highlighting their roles in transporting spin, polarization, and heat.

Contribution

It introduces a comparative analysis of magnons and ferrons, emphasizing their distinct and similar properties in magnetic and electric dipolar systems.

Findings

01

Magnons carry spin, momentum, and energy in magnetic materials.

02

Ferrons transport polarization and heat in ferroelectrics.

03

The paper elucidates the fundamental differences and similarities between magnons and ferrons.

Abstract

Magnons are the elementary excitations of the magnetic order that carry spin, momentum, and energy. Here we compare the magnon with the ferron, i.e. the elementary excitation of the electric dipolar order that transports polarization and heat in ferroelectrics.

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