Y. Chen scite author profile

In classical Cauchy elasticity, 3D materials exhibit six eigenmodes of deformation. Following the 1995 work of Milton and Cherkaev, extremal elastic materials can be classified by the number of eigenmodes, N, out of these six that are “easy”. Using Greek number words, this leads to hexamode (N = 6), pentamode (N = 5), tetramode (N = 4), trimode (N = 3), dimode (N = 2), and monomode (N = 1) materials. While hexamode materials are unstable in all regards, the possibility of pentamode metamaterials (“meta‐fluids”) has attracted considerable attention throughout the last decade. Here, inspired by the 2021 theoretical work of Wei, Liu, and Hu, microstructured 3D polymer‐based tetramode metamaterials are designed and characterized by numerical band‐structure calculations, fabricated by laser printing, characterized by ultrasound experiments, and compared to the theoretical ideal. An application in terms of a compact and broadband polarizer for acoustical phonons at ultrasound frequencies is demonstrated.

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Atmospheric particulate mercury in the megacity Beijing: Efficiency of mitigation measures and assessment of health effects

Schleicher

Schäfer

Chen

et al. 2016

Atmospheric Environment

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Design optimizations of IFMIF High Flux Test Module towards uniform specimen temperature distribution

Chen

Arbeiter

Heinzel

et al. 2010

Fusion Engineering and Design

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Y. Chen

Design description and validation results for the IFMIF High Flux Test Module as outcome of the EVEDA phase

Tetramode Metamaterials as Phonon Polarizers

Atmospheric particulate mercury in the megacity Beijing: Efficiency of mitigation measures and assessment of health effects

Design optimizations of IFMIF High Flux Test Module towards uniform specimen temperature distribution

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