Propagation characteristics of shear horizontal waves in piezoelectric semiconductor nanoplates incorporating surface effect

•The dispersion relations of SH waves in PS plates incorporating surface effect are presented.•The frequency and phase velocity spectrum relations and the cut-off frequencies are size dependent.•The surface effect reduces the frequency, phase velocity, and cut-off frequency of SH waves.•The surface...

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Bibliographic Details
Published in:International journal of mechanical sciences 2023-06, Vol.247, p.108201, Article 108201
Main Authors: Li, Dezhi, Li, Shuangpeng, Zhang, Chunli, Chen, Weiqiu
Format: Article
Language:English
Subjects:
Frequency spectrum
PS nanoplate
SH wave
Size-dependence
Surface effect
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Summary:•The dispersion relations of SH waves in PS plates incorporating surface effect are presented.•The frequency and phase velocity spectrum relations and the cut-off frequencies are size dependent.•The surface effect reduces the frequency, phase velocity, and cut-off frequency of SH waves.•The surface effect becomes more prominent for SH waves within high frequency range. Elastic wave-based devices made of piezoelectric semiconductors (PSs) find wide applications in modern scientific and technological fields. Elastic waves propagating in PS nanostructures have a rich variety of propagation characteristics due to the interaction between deformation, polarization, and charge carrier, as well as the influence of surface effect. Based on the Gurtin-Murdoch surface model, we conduct an analysis of horizontally polarized shear (SH) waves propagating in an infinite n-type PS plate with nano-thickness in this paper. For the open-circuit and electrically isolated boundary conditions, the analytical frequency and phase velocity spectrum relations and cut-off frequencies of SH waves with anti-symmetric and symmetric modes are presented. The influence of the surface effect, initial electron concentration, and thickness of the PS plate on the propagation characteristics of SH waves, such as frequency spectrum, phase velocity, and cut-off frequency, are elaborated in detail. Numerical results show that propagation characteristics of SH waves are size-dependent, and the macroscopic effective shear rigidity is softened at the nanoscale due to surface effect, which thus leads to the reduction of the frequency and phase velocity of SH waves. Moreover, the propagation characteristics of SH waves can be manipulated by changing the initial electron concentration. [Display omitted]
ISSN:0020-7403
1879-2162
DOI:10.1016/j.ijmecsci.2023.108201