Flexibly Steering of Self-Collimation Beam in Two-Dimensional Sonic Crystals

F. Shen; J. Deng; Y. Zhu

doi:10.1134/S1063771022600346

Flexibly Steering of Self-Collimation Beam in Two-Dimensional Sonic Crystals

F. Shen, J. Deng, Y. Zhu

School of Marine Science and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Almost no diffraction broadening of self-collimation beams and their easy crossing with low crosstalk offer new opportunities for acoustic wave manipulation. Here, we flexibly steer the self-collimation beam based on the total internal reflection of an airborne square lattice sonic crystal. The properly designed crystal/air interface may serve well as a total internal reflection mirror of the self-collimation beam, with which we are able to achieve the highly controllable beam reversal, snaking and crossing. Our scheme can be extended to more interesting beam steering, and have potential applications in constructing high-density integrated acoustic circuits.

Original language	English
Pages (from-to)	270-277
Number of pages	8
Journal	Acoustical Physics
Volume	70
Issue number	2
DOIs	https://doi.org/10.1134/S1063771022600346
State	Published - Apr 2024

Keywords

beam steering
self-collimation
sonic crystals
total internal reflection

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10.1134/S1063771022600346

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title = "Flexibly Steering of Self-Collimation Beam in Two-Dimensional Sonic Crystals",

abstract = "Almost no diffraction broadening of self-collimation beams and their easy crossing with low crosstalk offer new opportunities for acoustic wave manipulation. Here, we flexibly steer the self-collimation beam based on the total internal reflection of an airborne square lattice sonic crystal. The properly designed crystal/air interface may serve well as a total internal reflection mirror of the self-collimation beam, with which we are able to achieve the highly controllable beam reversal, snaking and crossing. Our scheme can be extended to more interesting beam steering, and have potential applications in constructing high-density integrated acoustic circuits.",

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N2 - Almost no diffraction broadening of self-collimation beams and their easy crossing with low crosstalk offer new opportunities for acoustic wave manipulation. Here, we flexibly steer the self-collimation beam based on the total internal reflection of an airborne square lattice sonic crystal. The properly designed crystal/air interface may serve well as a total internal reflection mirror of the self-collimation beam, with which we are able to achieve the highly controllable beam reversal, snaking and crossing. Our scheme can be extended to more interesting beam steering, and have potential applications in constructing high-density integrated acoustic circuits.

AB - Almost no diffraction broadening of self-collimation beams and their easy crossing with low crosstalk offer new opportunities for acoustic wave manipulation. Here, we flexibly steer the self-collimation beam based on the total internal reflection of an airborne square lattice sonic crystal. The properly designed crystal/air interface may serve well as a total internal reflection mirror of the self-collimation beam, with which we are able to achieve the highly controllable beam reversal, snaking and crossing. Our scheme can be extended to more interesting beam steering, and have potential applications in constructing high-density integrated acoustic circuits.

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Flexibly Steering of Self-Collimation Beam in Two-Dimensional Sonic Crystals

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