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Size effects on the mixed modes and defect modes for a nano-scale phononic crystal slab

Jun Jin, Ningdong Hu, Hongping Hu

2022Applied Mathematics and Mechanics11 citationsDOIOpen Access PDF

Abstract

Abstract The size-dependent band structure of an Si phononic crystal (PnC) slab with an air hole is studied by utilizing the non-classic wave equations of the nonlocal strain gradient theory (NSGT). The three-dimensional (3D) non-classic wave equations for the anisotropic material are derived according to the differential form of the NSGT. Based on the the general form of partial differential equation modules in COMSOL, a method is proposed to solve the non-classic wave equations. The bands of the in-plane modes and mixed modes are identified. The in-plane size effect and thickness effect on the band structure of the PnC slab are compared. It is found that the thickness effect only acts on the mixed modes. The relative width of the band gap is widened by the thickness effect. The effects of the geometric parameters on the thickness effect of the mixed modes are further studied, and a defect is introduced to the PnC supercell to reveal the influence of the size effects with stiffness-softening and stiffness-hardening on the defect modes. This study paves the way for studying and designing PnC slabs at nano-scale.

Topics & Concepts

SlabMaterials scienceSupercellAnisotropyPlane wave expansion methodCondensed matter physicsStiffnessSofteningNanoscopic scaleBand gapPhysicsOpticsComposite materialNanotechnologyGeophysicsMeteorologyThunderstormNonlocal and gradient elasticity in micro/nano structuresAcoustic Wave Phenomena ResearchThermoelastic and Magnetoelastic Phenomena