期刊
ADVANCED FUNCTIONAL MATERIALS
卷 30, 期 8, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.201904434
关键词
2D phononic crystals; elastic waves; hypersound; nanoscale thermal transport; phononics
类别
资金
- Spanish MINECO (Severo Ochoa Centers of Excellence Program) [SEV-2017-0706]
- Generalitat de Catalunya [2017SGR806]
- Generalitat de Catalunya (CERCA Program)
- Foundation for Polish Science [POIR.04.04.00-00-5D1B/18]
- Polish National Science Centre [UMO-2018/31/D/ST3/03882]
- ERC AdG SmartPhon [694977]
The central concept in phononics is the tuning of the phonon dispersion relation, or phonon engineering, which provides a means of controlling related properties such as group velocity or phonon interactions and, therefore, phonon propagation, in a wide range of frequencies depending on the geometries and sizes of the materials. Phononics exploits the present state of the art in nanofabrication to tailor dispersion relations in the range of GHz for the control of elastic waves/phonons propagation with applications toward new information technology concepts with phonons as state variable. Moreover, phonons provide an adaptable approach for supporting a coherent coupling between different state variables, and the development of nanoscale optomechanical systems during the last decade attests this prospect. The most extended approach to manipulate the phonon dispersion relation is introducing an artificial periodic modulation of the elastic properties, which is referred to as phononic crystal (PnC). Herein, the focus is on the recent experimental achievements in the fabrication and application of 2D PnCs enabling the modification of the dispersion relation of surface and membrane modes, and presenting phononic bandgaps, waveguiding, and confinement in the hypersonic regime. Furthermore, these artificial materials offer the potential of modifying and controlling the heat flow to enable new schemes in thermal management.
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