期刊
SOLID STATE COMMUNICATIONS
卷 361, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ssc.2022.115061
关键词
Phononic crystals; Brillouin zone; Displacement modes; Partial band gaps
This paper investigates the tuning of phononic crystal band gaps by studying displacement modes within the wavebands and correlating them with corresponding band structures. By analyzing the influence of geometry changes on displacement modes, we are able to design unit cells for specific applications, such as generating partial band gaps.
Phononic crystal band gaps (BGs), which are realized by Bragg scattering, have a central frequency and width related to the unit cell's size and the impedance mismatch between material phases. BG tuning has generally been performed by either trial and error or by computational tools such as topology optimization. In either case, understanding how to systematically change the design for a particular band structure is missing. This paper addresses this by closely studying the displacement modes within the wavebands that are responsible for the BG. We look at the variation in different displacement modes due to the changes in the geometry and correlate these changes to their corresponding band structures. We then use this insight to design the unit cell for a particular application, for instance, for generating partial BGs.
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