Two-photon absorption towards pulse modulation in mechanically exfoliated and CVD monolayer cascaded MoS2 structures

Yafeng Xie; Saifeng Zhang; Xiaoyan Zhang; Ningning Dong; Ivan M. Kislyakov; Song Luo; Zhanghai Chen; Jean-Michel Nunzi; Long Zhang; Jun Wang

doi:10.3788/COL201917.081901

Journals >Chinese Optics Letters >Volume 17 >Issue 8 >Page 081901 > Article

Chinese Optics Letters
Vol. 17, Issue 8, 081901 (2019)

Two-photon absorption towards pulse modulation in mechanically exfoliated and CVD monolayer cascaded MoS₂ structures

Yafeng Xie^1、2, Saifeng Zhang^1、**, Xiaoyan Zhang¹, Ningning Dong¹, Ivan M. Kislyakov¹, Song Luo³, Zhanghai Chen³, Jean-Michel Nunzi^1、4, Long Zhang¹, and Jun Wang^1、5、*

Author Affiliations

¹Laboratory of Micro-Nano Photonic and Optoelectronic Materials and Devices, Key Laboratory of Materials for High-Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China

²Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China

³State Key Laboratory of Surface Physics, Key Laboratory of Micro and Nano Photonic Structures of Ministry of Education, Department of Physics, Collaborative Innovation Center of Advanced Microstructures, Fudan University, Shanghai 200433, China

⁴Department of Physics, Engineering Physics & Astronomy and Department of Chemistry, Queen’s University, Kingston K7L-3N6, Ontario, Canada

⁵State Key Laboratory of High Field Laser Physics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China

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DOI: 10.3788/COL201917.081901 Cite this Article Set citation alerts

Yafeng Xie, Saifeng Zhang, Xiaoyan Zhang, Ningning Dong, Ivan M. Kislyakov, Song Luo, Zhanghai Chen, Jean-Michel Nunzi, Long Zhang, Jun Wang. Two-photon absorption towards pulse modulation in mechanically exfoliated and CVD monolayer cascaded MoS₂ structures[J]. Chinese Optics Letters, 2019, 17(8): 081901 Copy Citation Text

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(a)–(d) Optical microscope and AFM characterization of both CVD and ME MoS2 monolayers. (e) Raman spectra imply that there are more defects in the CVD MoS2 monolayer than in the ME one. (f) Steady PL spectra were measured, and strong PL quenching was observed in the CVD monolayer. (g), (h) The PL lifetime of an exciton in CVD and ME monolayers was measured using a streak camera.

Fig. 1. (a)–(d) Optical microscope and AFM characterization of both CVD and ME

{MoS}_{2}

monolayers. (e) Raman spectra imply that there are more defects in the CVD

{MoS}_{2}

monolayer than in the ME one. (f) Steady PL spectra were measured, and strong PL quenching was observed in the CVD monolayer. (g), (h) The PL lifetime of an exciton in CVD and ME monolayers was measured using a streak camera.

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Fig. 2. Schematic diagram of the setup of the micro-intensity scan.

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Fig. 3. (a) Schematic structures of monolayer

{MoS}_{2}

and vacancies in it. SV, sulfur vacancy; MoV, molybdenum vacancy. (b) Energy levels in CVD and ME

{MoS}_{2}

, optical transition, and defect-induced fast carrier capture processes (TPA, two-photon absorption; OPA, one-photon absorption). (c) Nonlinear transmittance versus incident pulse peak irradiance for

{MoS}_{2}

monolayers. The solid lines are the fitting results obtained by numerically solving Eq. (1). Inset: the values of the TPA coefficient and corresponding saturation intensity.

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Fig. 4. (a), (b) Differential intensity (