Research output: Contribution to journal › Article › peer-review
In-Plane Directional MoS2 Emitter Employing Dielectric Nanowire Cavity. / Кузнецов, Алексей; Аникина, Мария; Токсумаков, Адилет; Абрамов, Артём; Дремов, Вячеслав; Завьялова, Есения; Кондратьев, Валерий Михайлович; Федоров, Владимир Викторович; Мухин, Иван Сергеевич; Кравцов, Василий; Новосёлов, Константин; Чазарян, Давит; Большаков, Алексей Дмитриевич.
In: Small Structures, Vol. 6, No. 4, 2400476, 01.04.2025.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - In-Plane Directional MoS2 Emitter Employing Dielectric Nanowire Cavity
AU - Кузнецов, Алексей
AU - Аникина, Мария
AU - Токсумаков, Адилет
AU - Абрамов, Артём
AU - Дремов, Вячеслав
AU - Завьялова, Есения
AU - Кондратьев, Валерий Михайлович
AU - Федоров, Владимир Викторович
AU - Мухин, Иван Сергеевич
AU - Кравцов, Василий
AU - Новосёлов, Константин
AU - Чазарян, Давит
AU - Большаков, Алексей Дмитриевич
N1 - Kuznetsov A. et al. In‐Plane Directional MoS2 Emitter Employing Dielectric Nanowire Cavity //Small Structures. – 2025. – С. 2400476.
PY - 2025/4/1
Y1 - 2025/4/1
N2 - Two-dimensional transition metal dichalcogenides (TMDC) exhibit exceptional optical properties, such as strong light-matter interaction and robust light emission. Nonetheless, their integration into conventional silicon-based nanophotonic devices, which allow high emission efficiency is still challenging. Herein, a hybrid nanophotonic structure based on monolayer MoS2 and GaP nanowire for the enhancement of the emission and its directional outcoupling through the nanowire is presented. Furthermore, the resonant optical action of the nanowire, which leads to spectral modulation of the MoS2 photoluminescence with a remarkable Q factor exceeding 350 is investigated. The work showcases the achievement of directional in-plane outcoupling of the 2D TMDC's photoluminescence and its remote optical excitation. These results pave the way to the development of nanoscale laser sources and on-chip light routing for basic nanophotonic circuitry based on 2D materials.
AB - Two-dimensional transition metal dichalcogenides (TMDC) exhibit exceptional optical properties, such as strong light-matter interaction and robust light emission. Nonetheless, their integration into conventional silicon-based nanophotonic devices, which allow high emission efficiency is still challenging. Herein, a hybrid nanophotonic structure based on monolayer MoS2 and GaP nanowire for the enhancement of the emission and its directional outcoupling through the nanowire is presented. Furthermore, the resonant optical action of the nanowire, which leads to spectral modulation of the MoS2 photoluminescence with a remarkable Q factor exceeding 350 is investigated. The work showcases the achievement of directional in-plane outcoupling of the 2D TMDC's photoluminescence and its remote optical excitation. These results pave the way to the development of nanoscale laser sources and on-chip light routing for basic nanophotonic circuitry based on 2D materials.
KW - emitters
KW - gallium phosphide (GaP)
KW - molybdenum disulfide (MoS2)
KW - nanophotonics
KW - nanowires
UR - https://www.mendeley.com/catalogue/f3290d95-829d-3e8a-90c8-6fec70a946b5/
U2 - 10.1002/sstr.202400476
DO - 10.1002/sstr.202400476
M3 - Article
VL - 6
JO - Small Structures
JF - Small Structures
SN - 2688-4062
IS - 4
M1 - 2400476
ER -
ID: 134758879