Difference frequency generation in monolayer MoS2

Yadong Wang; Masood Ghotbi; Susobhan Das; Yunyun Dai; Shisheng Li; Xuerong Hu; Xuetao Gan; Jianlin Zhao; Zhipei Sun

doi:10.1039/d0nr01994a

Difference frequency generation in monolayer MoS₂

Yadong Wang, Masood Ghotbi, Susobhan Das, Yunyun Dai, Shisheng Li, Xuerong Hu, Xuetao Gan, Jianlin Zhao^*, Zhipei Sun

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

Difference frequency generation has long been employed for numerous applications, such as coherent light generation, sensing and imaging. Here, we demonstrate difference frequency generation down to atomic thickness in monolayer molybdenum disulfide. By mixing femtosecond optical pulses at wavelength of 406 nm with tunable pulses in the spectral range of 1300-1520 nm, we generate tunable pulses across the spectral range of 550-590 nm with frequency conversion efficiency up to ∼2 × 10-4. The second-order nonlinear optical susceptibility of monolayer molybdenum disulfide, χ(2)eff, is calculated as ∼1.8 × 10-8 m V-1, comparable to the previous results demonstrated with second harmonic generation. Such a highly efficient down-conversion nonlinear optical process in two-dimensional layered materials may open new ways to their nonlinear optical applications, such as coherent light generation and amplification.

Original language	English
Pages (from-to)	19638-19643
Number of pages	6
Journal	Nanoscale
Volume	12
Issue number	38
DOIs	https://doi.org/10.1039/d0nr01994a
Publication status	Published - 14 Oct 2020
MoE publication type	A1 Journal article-refereed

Keywords

Coherent light
Electromagnetic pulse
Layered semiconductors
Molybdenum compounds
Monolayers
Sulfur compounds

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10.1039/d0nr01994aLicence: CC BY

d0nr01994aFinal published version, 2.35 MBLicence: CC BY

Cite this

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title = "Difference frequency generation in monolayer MoS2",

abstract = "Difference frequency generation has long been employed for numerous applications, such as coherent light generation, sensing and imaging. Here, we demonstrate difference frequency generation down to atomic thickness in monolayer molybdenum disulfide. By mixing femtosecond optical pulses at wavelength of 406 nm with tunable pulses in the spectral range of 1300-1520 nm, we generate tunable pulses across the spectral range of 550-590 nm with frequency conversion efficiency up to ∼2 × 10-4. The second-order nonlinear optical susceptibility of monolayer molybdenum disulfide, χ(2)eff, is calculated as ∼1.8 × 10-8 m V-1, comparable to the previous results demonstrated with second harmonic generation. Such a highly efficient down-conversion nonlinear optical process in two-dimensional layered materials may open new ways to their nonlinear optical applications, such as coherent light generation and amplification.",

keywords = "Coherent light, Electromagnetic pulse, Layered semiconductors, Molybdenum compounds, Monolayers, Sulfur compounds",

author = "Yadong Wang and Masood Ghotbi and Susobhan Das and Yunyun Dai and Shisheng Li and Xuerong Hu and Xuetao Gan and Jianlin Zhao and Zhipei Sun",

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AU - Wang, Yadong

AU - Ghotbi, Masood

AU - Das, Susobhan

AU - Dai, Yunyun

AU - Li, Shisheng

AU - Hu, Xuerong

AU - Gan, Xuetao

AU - Zhao, Jianlin

AU - Sun, Zhipei

N1 - | openaire: EC/H2020/820423/EU//S2QUIP | openaire: EC/H2020/834742/EU//ATOP

PY - 2020/10/14

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N2 - Difference frequency generation has long been employed for numerous applications, such as coherent light generation, sensing and imaging. Here, we demonstrate difference frequency generation down to atomic thickness in monolayer molybdenum disulfide. By mixing femtosecond optical pulses at wavelength of 406 nm with tunable pulses in the spectral range of 1300-1520 nm, we generate tunable pulses across the spectral range of 550-590 nm with frequency conversion efficiency up to ∼2 × 10-4. The second-order nonlinear optical susceptibility of monolayer molybdenum disulfide, χ(2)eff, is calculated as ∼1.8 × 10-8 m V-1, comparable to the previous results demonstrated with second harmonic generation. Such a highly efficient down-conversion nonlinear optical process in two-dimensional layered materials may open new ways to their nonlinear optical applications, such as coherent light generation and amplification.

AB - Difference frequency generation has long been employed for numerous applications, such as coherent light generation, sensing and imaging. Here, we demonstrate difference frequency generation down to atomic thickness in monolayer molybdenum disulfide. By mixing femtosecond optical pulses at wavelength of 406 nm with tunable pulses in the spectral range of 1300-1520 nm, we generate tunable pulses across the spectral range of 550-590 nm with frequency conversion efficiency up to ∼2 × 10-4. The second-order nonlinear optical susceptibility of monolayer molybdenum disulfide, χ(2)eff, is calculated as ∼1.8 × 10-8 m V-1, comparable to the previous results demonstrated with second harmonic generation. Such a highly efficient down-conversion nonlinear optical process in two-dimensional layered materials may open new ways to their nonlinear optical applications, such as coherent light generation and amplification.

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KW - Electromagnetic pulse

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SN - 2040-3364

VL - 12

SP - 19638

EP - 19643

JO - Nanoscale

JF - Nanoscale

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ER -

Difference frequency generation in monolayer MoS₂

Abstract

Keywords

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-: Atomically-engineered nonlinear photonics with two-dimensional layered superlattices.

-: Photonics Research and Innovation

A-Photonics

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Difference frequency generation in monolayer MoS2

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Projects

-: Atomically-engineered nonlinear photonics with two-dimensional layered superlattices.

-: Photonics Research and Innovation

A-Photonics

Cite this

Difference frequency generation in monolayer MoS₂