Open Access
Open access
American Chemical Society (ACS)
ACS Nano
volume 15 issue 3 pages 4802-4810

Protected Long-Distance Guiding of Hypersound Underneath a Nanocorrugated Surface

Dmytro D Yaremkevich 1
A.V. Scherbakov 1, 2
S. M. Kukhtaruk 1, 3
T.L. Linnik 3
N.E. Khokhlov 2
F. Godejohann 1
Olga A. Dyatlova 1
Achim Nadzeyka 4
Debi P Pattnaik 5
M. Wang 5
Syamashree Roy 5
R.P Campion 5
A.W. Rushforth 5
V.E. Gusev 6
A.V. Akimov 5
M. Bayer 1, 2
1
 
2
 
3
 
Department of Theoretical Physics, V. E. Lashkaryov Institute of Semiconductor Physics, Pr. Nauky 41, 03028 Kyiv, Ukraine
4
 
Raith GmbH, Konrad-Adenauer-Allee 8, 44263 Dortmund, Germany
5
 
6
 
LAUM, CNRS UMR 6613, Le Mans Université, 72085 Le Mans, France
Publication typeJournal Article
Publication date2021-02-16
American Chemical Society (ACS)
scimago Q1
wos Q1
SJR4.497
CiteScore24.2
Impact factor16.0
ISSN19360851, 1936086X
General Physics and Astronomy
General Materials Science
General Engineering
Abstract
In nanoscale communications, high-frequency surface acoustic waves are becoming effective data carriers and encoders. On-chip communications require acoustic wave propagation along nanocorrugated surfaces which strongly scatter traditional Rayleigh waves. Here, we propose the delivery of information using subsurface acoustic waves with hypersound frequencies of ∼20 GHz, which is a nanoscale analogue of subsurface sound waves in the ocean. A bunch of subsurface hypersound modes are generated by pulsed optical excitation in a multilayer semiconductor structure with a metallic nanograting on top. The guided hypersound modes propagate coherently beneath the nanograting, retaining the surface imprinted information, at a distance of more than 50 μm which essentially exceeds the propagation length of Rayleigh waves. The concept is suitable for interfacing single photon emitters, such as buried quantum dots, carrying coherent spin excitations in magnonic devices and encoding the signals for optical communications at the nanoscale.
Found 
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GOST |
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GOST Copy
Yaremkevich D. D. et al. Protected Long-Distance Guiding of Hypersound Underneath a Nanocorrugated Surface // ACS Nano. 2021. Vol. 15. No. 3. pp. 4802-4810.
GOST all authors (up to 50) Copy
Yaremkevich D. D., Scherbakov A., Kukhtaruk S. M., Linnik T., Khokhlov N., Godejohann F., Dyatlova O. A., Nadzeyka A., Pattnaik D. P., Wang M., Roy S., Campion R., Rushforth A., Gusev V., Akimov A., Bayer M. Protected Long-Distance Guiding of Hypersound Underneath a Nanocorrugated Surface // ACS Nano. 2021. Vol. 15. No. 3. pp. 4802-4810.
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1021/acsnano.0c09475
UR - https://doi.org/10.1021/acsnano.0c09475
TI - Protected Long-Distance Guiding of Hypersound Underneath a Nanocorrugated Surface
T2 - ACS Nano
AU - Yaremkevich, Dmytro D
AU - Scherbakov, A.V.
AU - Kukhtaruk, S. M.
AU - Linnik, T.L.
AU - Khokhlov, N.E.
AU - Godejohann, F.
AU - Dyatlova, Olga A.
AU - Nadzeyka, Achim
AU - Pattnaik, Debi P
AU - Wang, M.
AU - Roy, Syamashree
AU - Campion, R.P
AU - Rushforth, A.W.
AU - Gusev, V.E.
AU - Akimov, A.V.
AU - Bayer, M.
PY - 2021
DA - 2021/02/16
PB - American Chemical Society (ACS)
SP - 4802-4810
IS - 3
VL - 15
PMID - 33593052
SN - 1936-0851
SN - 1936-086X
ER -
BibTex |
Cite this
BibTex (up to 50 authors) Copy
@article{2021_Yaremkevich,
author = {Dmytro D Yaremkevich and A.V. Scherbakov and S. M. Kukhtaruk and T.L. Linnik and N.E. Khokhlov and F. Godejohann and Olga A. Dyatlova and Achim Nadzeyka and Debi P Pattnaik and M. Wang and Syamashree Roy and R.P Campion and A.W. Rushforth and V.E. Gusev and A.V. Akimov and M. Bayer},
title = {Protected Long-Distance Guiding of Hypersound Underneath a Nanocorrugated Surface},
journal = {ACS Nano},
year = {2021},
volume = {15},
publisher = {American Chemical Society (ACS)},
month = {feb},
url = {https://doi.org/10.1021/acsnano.0c09475},
number = {3},
pages = {4802--4810},
doi = {10.1021/acsnano.0c09475}
}
MLA
Cite this
MLA Copy
Yaremkevich, Dmytro D., et al. “Protected Long-Distance Guiding of Hypersound Underneath a Nanocorrugated Surface.” ACS Nano, vol. 15, no. 3, Feb. 2021, pp. 4802-4810. https://doi.org/10.1021/acsnano.0c09475.