Open Access
Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics.
Georgy A. Ermolaev
1, 2
,
D V Grudinin
1
,
Y V Stebunov
3
,
Kirill V. Voronin
1, 2
,
V. G. Kravets
4
,
J. Duan
5, 6
,
A. B. Mazitov
1, 7
,
G Tselikov
1
,
A. Bylinkin
1, 8
,
D I Yakubovsky
1
,
S. M. Novikov
1
,
Denis G. Baranov
1, 9
,
Alexey A. Nikitin
1, 10, 11
,
I A Kruglov
1, 7
,
Timur O. Shegai
9
,
Pablo Alonso-González
5, 6
,
A.N Grigorenko
4
,
Aleksey Arsenin
1, 12
,
K. S. Novoselov
3, 13, 14
,
Valentyn S. Volkov
1, 12
6
12
GrapheneTek, Skolkovo Innovation Center, Moscow, Russia
|
14
Chongqing 2D Materials Institute, Chongqing, China
|
Тип публикации: Journal Article
Дата публикации: 2021-02-08
scimago Q1
wos Q1
БС1
SJR: 4.761
CiteScore: 23.4
Impact factor: 15.7
ISSN: 20411723
PubMed ID:
33558559
General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy
Краткое описание
Large optical anisotropy observed in a broad spectral range is of paramount importance for efficient light manipulation in countless devices. Although a giant anisotropy has been recently observed in the mid-infrared wavelength range, for visible and near-infrared spectral intervals, the problem remains acute with the highest reported birefringence values of 0.8 in BaTiS3 and h-BN crystals. This issue inspired an intensive search for giant optical anisotropy among natural and artificial materials. Here, we demonstrate that layered transition metal dichalcogenides (TMDCs) provide an answer to this quest owing to their fundamental differences between intralayer strong covalent bonding and weak interlayer van der Waals interaction. To do this, we made correlative far- and near-field characterizations validated by first-principle calculations that reveal a huge birefringence of 1.5 in the infrared and 3 in the visible light for MoS2. Our findings demonstrate that this remarkable anisotropy allows for tackling the diffraction limit enabling an avenue for on-chip next-generation photonics.
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BibTex
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ГОСТ
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Ermolaev G. A. et al. Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics. // Nature Communications. 2021. Vol. 12. No. 1. 854
ГОСТ со всеми авторами (до 50)
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Ermolaev G. A. et al. Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics. // Nature Communications. 2021. Vol. 12. No. 1. 854
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RIS
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TY - JOUR
DO - 10.1038/s41467-021-21139-x
UR - https://www.nature.com/articles/s41467-021-21139-x
TI - Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics.
T2 - Nature Communications
AU - Ermolaev, Georgy A.
AU - Grudinin, D V
AU - Stebunov, Y V
AU - Voronin, Kirill V.
AU - Kravets, V. G.
AU - Duan, J.
AU - Mazitov, A. B.
AU - Tselikov, G
AU - Bylinkin, A.
AU - Yakubovsky, D I
AU - Novikov, S. M.
AU - Baranov, Denis G.
AU - Nikitin, Alexey A.
AU - Kruglov, I A
AU - Shegai, Timur O.
AU - Alonso-González, Pablo
AU - Grigorenko, A.N
AU - Arsenin, Aleksey
AU - Novoselov, K. S.
AU - Volkov, Valentyn S.
PY - 2021
DA - 2021/02/08
PB - Springer Nature
IS - 1
VL - 12
PMID - 33558559
SN - 2041-1723
ER -
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BibTex (до 50 авторов)
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@article{2021_Ermolaev,
author = {Georgy A. Ermolaev and D V Grudinin and Y V Stebunov and Kirill V. Voronin and V. G. Kravets and J. Duan and A. B. Mazitov and G Tselikov and A. Bylinkin and D I Yakubovsky and S. M. Novikov and Denis G. Baranov and Alexey A. Nikitin and I A Kruglov and Timur O. Shegai and Pablo Alonso-González and A.N Grigorenko and Aleksey Arsenin and K. S. Novoselov and Valentyn S. Volkov and others},
title = {Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics.},
journal = {Nature Communications},
year = {2021},
volume = {12},
publisher = {Springer Nature},
month = {feb},
url = {https://www.nature.com/articles/s41467-021-21139-x},
number = {1},
pages = {854},
doi = {10.1038/s41467-021-21139-x}
}