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Please use this identifier to cite or link to this item: http://ir.ncue.edu.tw/ir/handle/987654321/1576

Title: “Complete band gaps and deaf bands of triangular and honeycomb water-steel phononic crystals''
Authors: Fu-Li Hsiao;A. Khelif;H. Moubchir;A. Choujaa;Chii-Chang Chen;V. Laude
Contributors: 光電科技研究所
Date: 2007
Issue Date: 2010-11-10T07:26:16Z
Abstract: Phononic crystals with triangular and honeycomb lattices are investigated experimentally and theoretically. They are composed of arrays of steel cylinders immersed in water. The measured transmission spectra reveal the existence of complete band gaps but also of deaf bands. Band gaps and deaf bands are identified by comparing band structure computations, obtained by a periodic-boundary finite element method, with transmission simulations, obtained using the finite difference time domain method. The appearance of flat bands and the polarization of the associated eigenmodes is also discussed. Triangular and honeycomb phononic crystals with equal cylinder diameter and smallest spacing are compared. As previously obtained with air-solid phononic crystals, it is found that the first complete band gap opens for the honeycomb lattice but not for the triangular lattice, thanks to symmetry reduction.
Relation: J. Appl. Phys. vol. 101, pp. 044903 (2008 I.F.=2.201)
Appears in Collections:[光電科技研究所] 期刊論文

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