Acoustic wavefront manipulation via transmission-type labyrinth structure

Acoustic wavefront manipulation via transmission-type labyrinth structure

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In this work, a transmission-type labyrinth structure (LS) is proposed to construct subwavelength acoustic functional metasurfaces, through which various desirable acoustic wavefront manipulation can be achieved in a broadband from 2,700 Hz to 3,900 Hz.By utilizing the excellent guiding property of LS, an invisibility cloak is An Improved Convolutional Neural Network (CNN) for Disease Detection and Diagnosis for Multi-crop Plants designed to shield the target scattering body in the transmitted field.In addition, gradient metasurfaces composed of several LSs with different phase responses are constructed to obtain broadband beam deflection and focusing.Moreover, binary coding approach is adopted to further simplify the design philosophy of the metasurfaces by taking advantage of only two kinds of LS with opposite phase responses.

Numerous wavefront manipulations including acoustic splitting beam and self-bending beam can be realized by using corresponding coding sequences.Our Study protocol: developing and evaluating an interactive web platform to teach children hunting, shooting and firearms safety: a randomized controlled trial work provides a solution for multifunctional acoustic wavefront manipulation in a broadband, which may have potential applications in acoustic communication, detection and holography.