Proceeding 5th International Conference on Engineering Applied Sciences and Technology Iceast 2019 , 01/07/2019

Confinement of acoustic fields in a honeycomb phononic crystal slab

Paul H. Otsuka, Sorasak Danworaphong, Istvan Veres, Oliver B. Wright, Ryota Chinbe, Motonobu Tomoda, Yukihiro Tanaka, Sihan H. Kim, Osamu Matsuda, Heonsu S. Jeon

Abstract

We demonstrate the nement of acoustic waves in a microscopic phononic crystal slab consisting of a honeycomb array of holes in silicon. The acoustic field is measured on the sample surface at frequencies up to 1GHz by means of an ultrafast optical technique. Using temporal Fourier transforms, the confinement is shown to depend on frequency, and a phononic band gap is identified. Finite element simulations are performed and used to analyze the results.

Document Type

Conference Paper

Source Type

Conference Proceeding

ISBN

[9781728100678]

ISSN

Keywords

acoustic cavitylaser ultrasonicsphononic crystal

Access to Document

DOI : 10.1109/ICEAST.2019.8802519
Link to scopus


2

Citations (Scopus)

Bibliography


Otsuka, P., Danworaphong, S., Veres, I., Wright, O., Chinbe, R., Tomoda, M., Tanaka, Y., ... Jeon, H. (2019). Confinement of acoustic fields in a honeycomb phononic crystal slab. Proceeding 5th International Conference on Engineering Applied Sciences and Technology Iceast 2019doi:10.1109/ICEAST.2019.8802519

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