\begin{document}$\varepsilon $\end{document} are respectively analyzed through using the wave optics module of COMSOL. Adopting classical scattering theory, Poincaré surfaces of sections under different deformation factors are simulated by optimizing the Dynamical Billards.jl library in Julia. In the simulation realized by Julia, 200 particle collisions are used 200 times to simulate 200 reflections of rays and finally PSOS images are obtained. Simulation results reveal that when the azimuthal quantum number of the light wave mode remains unchanged, although the shape of the microdisk varies, the ratio of the resonant wavelength inside the microdisk to the circumference of the microdisk is approximately a constant, which can predict the microdisk size and resonant wavelength estimation of microcavities. The corresponding PSOS shows that when \begin{document}$\varepsilon > 0.45$\end{document}, the entire region is covered by chaotic sea area, therefore \begin{document}$\varepsilon $\end{document} values of 0, 0.16, 0.24, 0.28, 0.45 are selected to simulate the TE20,1 mode distribution, far-field radiation flux angle distribution, and PSOS. Theoretical simulation results show that when the deformation factor is greater than 0.24, the microdisk has good unidirectional lasing property, with a Q factor greater than 105. When the deformation factor is greater than 0.4, the PSOS is almost occupied by the chaotic sea area, with a Q factor below 103. Therefore, when the deformation factor of the limacon microdisk in the thin film can be chosen between 0.24 and 0.4, under which circumstance the microdisk not only carries high quality factor (about 103–105), but also forms high laser directionality (about 6.45–8.32). The theoretical simulation results will provide a certain theoretical reference for conducting the experimental research of thin film deformation microcavities."> - 必威体育下载

Search

Article

x

留言板

姓名
邮箱
手机号码
标题
留言内容
验证码

downloadPDF
Citation:

    Xu Yu-Xuan, Yao Tai-Yu, Deng Li, Chen Shi-Mei, Xu Chen-Yao, Tang Wen-Xuan
    PDF
    HTML
    Get Citation
    Metrics
    • Abstract views:1072
    • PDF Downloads:27
    • Cited By:0
    Publishing process
    • Received Date:05 November 2023
    • Accepted Date:22 January 2024
    • Available Online:19 February 2024
    • Published Online:20 April 2024

      返回文章
      返回
        Baidu
        map