Magnetically Induced Carrier Distribution in a Composite Rod of Piezoelectric Semiconductors and Piezomagnetics

Magnetically Induced Carrier Distribution in a Composite Rod of Piezoelectric Semiconductors and Piezomagnetics

In this work, we study the behavior of a composite rod consisting of a piezoelectric semiconductor layer and two piezomagnetic layers under an applied axial magnetic field. Based on the phenomenological theories of piezoelectric semiconductors and piezomagnetics, a one-dimensional model is developed...

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Bibliographic Details
Published in:Materials Vol. 13; no. 14; p. 3115
Main Authors: Wang, Guolin, Liu, Jinxi, Feng, Wenjie, Yang, Jiashi
Format: Journal Article
Language:English
Published: Basel MDPI AG 13-07-2020
MDPI
Subjects:
applied magnetic field
Boundary conditions
carrier tuning
Coupling
Electric fields
Exact solutions
Magnetic fields
One dimensional models
Ordinary differential equations
Partial differential equations
piezoelectric semiconductor
Piezoelectricity
piezomagnetic
Polarization
Semiconductors
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Summary:In this work, we study the behavior of a composite rod consisting of a piezoelectric semiconductor layer and two piezomagnetic layers under an applied axial magnetic field. Based on the phenomenological theories of piezoelectric semiconductors and piezomagnetics, a one-dimensional model is developed from which an analytical solution is obtained. The explicit expressions of the coupled fields and the numerical results show that an axially applied magnetic field produces extensional deformation through piezomagnetic coupling, the extension then produces polarization through piezoelectric coupling, and the polarization then causes the redistribution of mobile charges. Thus, the composite rod exhibits a coupling between the applied magnetic field and carrier distribution through combined piezomagnetic and piezoelectric effects. The results have potential applications in piezotronics when magnetic fields are relevant.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma13143115