Acoustic cavities in 2D heterostructures

Acoustic cavities in 2D heterostructures

Two-dimensional (2D) materials offer unique opportunities in engineering the ultrafast spatiotemporal response of composite nanomechanical structures. In this work, we report on high frequency, high quality factor ( Q ) 2D acoustic cavities operating in the 50–600 GHz frequency ( f ) range with f ×...

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Veröffentlicht in:Nature communications 2021-06, Vol.12 (1), p.3267-3267, Article 3267
Hauptverfasser: Zalalutdinov, Maxim K., Robinson, Jeremy T., Fonseca, Jose J., LaGasse, Samuel W., Pandey, Tribhuwan, Lindsay, Lucas R., Reinecke, Thomas L., Photiadis, Douglas M., Culbertson, James C., Cress, Cory D., Houston, Brian H.
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Sprache:eng
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639/925/357/1018
639/925/927/359
Acoustic propagation
Acoustics
Anharmonicity
Attenuation
Cavities
Energy dissipation
Heterostructures
Holes
Humanities and Social Sciences
Interfaces
MATERIALS SCIENCE
Mathematical analysis
Molybdenum disulfide
multidisciplinary
NEMS
Phonons
Q factors
Science
Science (multidisciplinary)
Signal processing
Sound propagation
Two dimensional materials
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Zusammenfassung:Two-dimensional (2D) materials offer unique opportunities in engineering the ultrafast spatiotemporal response of composite nanomechanical structures. In this work, we report on high frequency, high quality factor ( Q ) 2D acoustic cavities operating in the 50–600 GHz frequency ( f ) range with f × Q up to 1 × 10 14 . Monolayer steps and material interfaces expand cavity functionality, as demonstrated by building adjacent cavities that are isolated or strongly-coupled, as well as a frequency comb generator in MoS 2 /h-BN systems. Energy dissipation measurements in 2D cavities are compared with attenuation derived from phonon-phonon scattering rates calculated using a fully microscopic ab initio approach. Phonon lifetime calculations extended to low frequencies (
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-021-23359-7