Broadband subwavelength imaging of flexural elastic waves in flat phononic crystal lenses

Danawe, Hrishikesh; Tol, Şerife

doi:10.1038/s41598-023-34314-5

Cited by 4 publications

(1 citation statement)

References 26 publications

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“…When inspecting a specimen using guided waves, the resolution of the obtained image is fundamentally proportional to the wavelength of the guided wave due to the diffraction limit. However, metamaterial lenses enable subwavelength imaging beyond the conventional diffraction limit [332][333][334][335][336][337][338]. Oh et al [335] performed a subwavelength imaging experiment using a metamaterial lens with ultrasonic-guided waves.…”

Section: Othersmentioning

confidence: 99%

Elastic metamaterials for guided waves: from fundamentals to applications

Lee,

Kim

2023

Smart Mater. Struct.

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Guided waves, elastic waves propagating through bounded structures, play a pivotal role in various applications, including ultrasonic non-destructive testing and structural health monitoring. Recently, elastic metamaterials artificially engineered to exhibit physical properties not typically seen in nature have emerged as a ground-breaking approach, heralding a new era in guided wave-based technologies. These metamaterials offer innovative solutions to overcome the inherent constraints of traditional guided wave-based technology. This paper comprehensively reviews elastic metamaterials from their fundamental principles to diverse applications, focusing on their transformative impact in guided wave manipulation.

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Section: Othersmentioning

confidence: 99%

Elastic metamaterials for guided waves: from fundamentals to applications

Lee,

Kim

2023

Smart Mater. Struct.

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The sub-wavelength focusing of flexural waves achieved by splitting one plane lens into two halves with a controllable angle

Li,

Xu,

Dong

et al. 2024

Mechanical Systems and Signal Processing

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Harnessing negative refraction and evanescent waves toward super-resolution Lamb wave imaging

Danawe,

Tol

2023

Applied Physics Letters

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We numerically and experimentally demonstrate super-resolution focusing of the lowest anti-symmetric (A0) mode Lamb waves in a thin aluminum plate. The subwavelength focusing/imaging is achieved by exploiting the anisotropy in phononic crystal (PC) lattices and amplification of evanescent waves. To this end, we embedded a PC flat lens in the aluminum plate, consisting of holes arranged in a square lattice formation. We revealed that the bound slab phonon modes amplify evanescent waves, as previously observed for electromagnetic and acoustic waves. Hence, the slab mode helps propagate subwavelength information through the PC lens to reach the near-field image formed due to negative refraction and result in the high resolution image.

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Broadband subwavelength imaging of flexural elastic waves in flat phononic crystal lenses

Cited by 4 publications

References 26 publications

Elastic metamaterials for guided waves: from fundamentals to applications

Elastic metamaterials for guided waves: from fundamentals to applications

The sub-wavelength focusing of flexural waves achieved by splitting one plane lens into two halves with a controllable angle

Harnessing negative refraction and evanescent waves toward super-resolution Lamb wave imaging

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