在少层和单层GaSe中实现微瓦级连续波泵浦二次谐波产生
Microwatts continuous-wave pumped second harmonic generation in few- and mono-layer GaSe.
作者信息
Gan Xue-Tao, Zhao Chen-Yang, Hu Si-Qi, Wang Tao, Song Yu, Li Jie, Zhao Qing-Hua, Jie Wan-Qi, Zhao Jian-Lin
机构信息
MOE Key Laboratory of Space Applied Physics and Chemistry and Shaanxi Key Laboratory of Optical Information Technology, School of Science, Northwestern Polytechnical University, Xi'an 710072, China.
State Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi'an 710072, China.
出版信息
Light Sci Appl. 2018 Jan 12;7:17126. doi: 10.1038/lsa.2017.126. eCollection 2018.
We demonstrate the first achievement of continuous-wave (CW) pumped second harmonic generation (SHG) in few- and mono-layer gallium selenide (GaSe) flakes, which are coated on silicon photonic crystal (PC) cavities. Because of ultrahigh second order nonlinearity of the two-dimensional (2D) GaSe and localized resonant mode in the PC cavity, SHG's pump power is greatly reduced to microwatts. In a nine-layer GaSe coated PC cavity, while the optical power inside the GaSe flake is only 1.5% of that in the silicon PC slab, the SHG in GaSe is more than 650 times stronger than the third harmonic generation in silicon slab, indicating 2D GaSe's great potentials to strengthen nonlinear processes in silicon photonics. Our study opens up a new view to expand 2D materials' optoelectronic applications in nonlinear regime and chip-integrated active devices.
我们展示了在涂覆于硅光子晶体(PC)腔上的少层和单层硒化镓(GaSe)薄片中实现连续波(CW)泵浦二次谐波产生(SHG)的首个成果。由于二维(2D)GaSe的超高二阶非线性以及PC腔中的局域共振模式,SHG的泵浦功率大幅降低至微瓦级。在一个涂覆了九层GaSe的PC腔中,尽管GaSe薄片内部的光功率仅为硅PC平板中光功率的1.5%,但GaSe中的SHG比硅平板中的三次谐波产生强650倍以上,这表明二维GaSe在增强硅光子学中的非线性过程方面具有巨大潜力。我们的研究为扩展二维材料在非线性领域的光电应用以及芯片集成有源器件开辟了新视野。
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