Compact acoustic bilayer metasurfaces for high-efficiency flexible beamsplitting

The Journal of the Acoustical Society of America, Journal Year: 2025, Volume and Issue: 157(5), P. 3370 - 3377

Published: May 1, 2025

Tunable beamsplitting is important for the flexible control of sound wave radiation in acoustics, which has garnered an increasing amount attention recently. Twisted bilayer metasurfaces, capable dynamically manipulating acoustic waves by altering interlayer angle, offer significant advantage facile adjustability. Here, we introduce a compact metasurface (ABM) with near-zero distance that enables high-efficiency beamsplitting. The ABM integrates two metasurfaces identical phase distribution, allowing four distinct configurations rotating one 90° increments, thereby achieving function types far-field patterns. periodic design permits to be infinitely large, while its structure assures stability. Both numerical simulations and experimental validations confirm effectiveness ABM. Our work offers versatile solution advanced multifunctional applications.

Language: Английский

---

Dynamic manipulation of ultrasonic beams by coding Moiré metasurfaces

Applied Physics Letters, Journal Year: 2025, Volume and Issue: 126(2)

Published: Jan. 13, 2025

Dynamic acoustic beam manipulation via tunable metasurfaces (AMs) has attracted significant attention. However, most current AMs are primarily designed for airborne sound, feature complex structural components, and serve a singular purpose. This study proposes coding Moiré metasurface (CMM) consisting of two cascaded (ACMs) to dynamically manipulate ultrasonic beams in water. The CMM merges the characteristics can achieve different manipulations by rotating ACM changing sequence. is demonstrated presenting CMMs with stripe checkerboard patterns: former split an into omnidirectional scanning beams, while latter divided it four sections. Finally, bits employed construct samples: water unit bit “0” photosensitive resin “1.” Experimental results demonstrate that beams. proposed hold substantial potential communication dynamic detection applications.

Language: Английский

---

Reconfigurable Manipulation of Sound with a Multimaterial 3D Printed Origami Metasurface

Advanced Materials Technologies, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 22, 2025

Abstract The challenge in reconfigurable manipulation of sound waves using metasurfaces lies achieving precise control over acoustic behavior while developing efficient and practical tuning methods for structural configurations. However, most studies on rely cumbersome time‐consuming systems. These approaches often struggle with fabrication techniques, as conventional face limitations such restricted material choices, challenges complex geometries, difficulties incorporating flexible components. This paper proposes a novel approach metasurface inspired by the Kresling origami, designed programmable at an operating frequency 2000 Hz. origami unit cell is fabricated multimaterial three‐dimensional (3D) printing technology, allowing simultaneous two materials different mechanical properties, thus creating bistable origami‐based structure. Through optimization, equilibrium states achieve reflection phase difference π through application small axial force, F , or torque, T . Various configurations metasurface, generated from combinations these equilibria, enable distinct reflective behaviors switchable functionalities. principle this work simplifies shaping straightforward mechanism, eliminating need systems adjustments.

Language: Английский

---

Ultrathin moiré pattern interlayered metamaterials for broadband and wide-frequency range tunable microwave absorption

Journal of Alloys and Compounds, Journal Year: 2025, Volume and Issue: unknown, P. 178695 - 178695

Published: Jan. 1, 2025

Language: Английский

---

Multidimensional‐Encrypted Meta‐Optics Storage Empowered by Diffraction‐Order Decoupling

Advanced Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 9, 2025

Recent advancements in multidimensional multiplexing have paved the way for meta-optics encryption to be a viable solution next-generation information storage and security. However, challenges persist increasing simultaneously modulated dimensions while minimizing structural complexity. Here, novel single-cell order-decoupling method is proposed realization of encrypted system. By analyzing mathematic relationships between phases different diffraction orders, detour phase structure optimized achieve independent encoding freedom multiple orders. The successfully realize concurrent modulation four optical dimensions: i) Wavelength, ii) Wavevector Direction, iii) Polarization, iv) Diffraction Order. system achieves up sixteen-channel meta-holograms with low crosstalk exponentially raises threshold brute-force decoding thus remarkably enhances security storage. It envisioned that on-chip metasurface-based strategy augmented reality display functionalities presents promising applications encryption/storage, anti-counterfeiting, multifunctional photonics integrated circuits.

Language: Английский

---