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Orbital Angular Momentum Multiplexing in Space–Time Thermoacoustic Metasurfaces

Yurou Jia, Yimin Liu, Bolun Hu, Wei Xiong, Yechao Bai, Ying Cheng, Da‐Jian Wu, Xiaojun Liu, Johan Christensen

2022Advanced Materials45 citationsDOIOpen Access PDF

Abstract

Multiplexing technology with increased information capacity plays a crucial role in the realm of acoustic communication. Different quantities of sound waves, including time, frequency, amplitude, phase, and orbital angular momentum (OAM), have been independently introduced as the physical multiplexing approach to allow for enhanced communication densities. An acoustic metasurface is decorated with carbon nanotube patches, which when electrically pumped and set to rotate, functions as a hybrid mode-frequency-division multiplexer with synthetic dimensions. Based on this spatiotemporal modulation, a superposition of vortex beams with orthogonal OAMs and symmetric harmonics are both numerically and experimentally demonstrated. Also, flexible combinations of OAM modes with diverse frequency shifts are obtained by transforming the azimuthal phase distributions, which inspires a mode-frequency-division multiplexing approach that significantly promotes the communication capacity.

Topics & Concepts

MultiplexingSuperposition principleAngular momentumPhysicsModulation (music)Orbital angular momentum multiplexingHarmonicsPosition and momentum spaceMultiplexerAmplitude modulationAcousticsOpticsFrequency modulationTelecommunicationsOrbital angular momentum of lightRadio frequencyComputer scienceClassical mechanicsTotal angular momentum quantum numberVoltageQuantum mechanicsOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface Technologies
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