Upper Bound on the Magnetoelectric Susceptibility

Abstract

The change in the free energy that occurs when electric and magnetic fields are simultaneously applied to a magnetoelectric medium is calculated. It is shown that a quadratic form related to this change in the free energy is positive definite, from which it follows that all elements of the magnetoelectric-susceptibility tensor must be smaller than the geometric mean of appropriate elements of the magnetic- and electric-susceptibility tensors. It is pointed out that the diamagnetic contribution to the magnetic-susceptibility tensor is negligible in materials in which the magnetoelectric effect is allowed. It is concluded that the magnetoelectric susceptibility should be small compared with unity, except possibly in ferroelectric or ferromagnetic materials.

Keywords

Magnetoelectric effectDiamagnetismMagnetic susceptibilityCondensed matter physicsTensor (intrinsic definition)FerromagnetismPhysicsFerroelectricityMagnetic fieldMaterials scienceMultiferroicsQuantum mechanicsDielectricMathematics

Affiliated Institutions

University of Minnesota US

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Publication Info

Year: 1968
Type: article
Volume: 168
Issue: 2
Pages: 574-577
Citations: 181
Access: Closed

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APA Style

                            
                                    William Fuller Brown, 
                                
                                    R. M. Hornreich, 
                                
                                    S. Shtrikman
                                
                            (1968). 
                            Upper Bound on the Magnetoelectric Susceptibility. 
                            Physical Review
                            , 168
                            (2)
                            , 574-577.
                            https://doi.org/10.1103/physrev.168.574

Identifiers

DOI: 10.1103/physrev.168.574