李晓双

一、个人基本信息

李晓双，男，博士，副教授（低职高聘），北京交通大学固体力学专业博士。主要研究方向：弹性波\声波超材料设计及在土木工程中的应用。

二、其他学习、工作经历

2006.9−2010.6  中国矿业大学攻读学士学位 专业：工程力学

2010.9−2013.6  中国矿业大学攻读硕士学位 专业：工程力学 （研究方向：无网格计算力学方法）

 2013.9−2020.9 北京交通大学攻读博士学位 专业：固体力学 （研究方向：声光子晶体及声波/弹性波超材料和超表面的设计及应用 ）

出国经历：2018.6−2018.11 新加坡南洋理工大学电子工程学院交流学习

三、主讲课程

《弹性力学》《电工与电子技术》

四、发表论文情况：(包括论文题目、发表时间等）

1. Li Xiao-Shuang, Wang Yan-Feng, Wang Yue-Sheng. Sparse binary metasurfaces for steering the flexural waves. Extreme Mechanics Letter (SCI), 2022.

2. Li Xiao-Shuang, Wang Yan-Feng, Wang Yue-Sheng. Modulation of acoustic self-accelerating beams with tunable curved metasurfaces. Applied Physics Letters (SCI), 2021.

3. Li Xiao-Shuang, Wang Yan-Feng, Wang Yue-Sheng. An arbitrarily curved acoustic metasurface for three-dimensional reflected wave-front modulation. Journal of Physics D: Applied Physics (SCI), 2020.

4. Li Xiao-Shuang, Wang Yan-Feng, Wang Yue-Sheng. Modulation of out-of-plane reflected waves by using acoustic metasurfaces with tapered corrugated holes. Scientific Reports (SCI), 2019.

5. Su Xiao-Xing, Li Xiao-Shuang, Wang Yue-Sheng. Theoretical study on the stimulated Brillouin scattering in a sub-wavelength anisotropic waveguide: acousto-optical coupling coefficients and effects of transverse anisotropies. Journal of the Optical Society of America Physics (SCI), 2017.

6. Zhou Hong-Tao, Fu Wen-Xiao, Li Xiao-Shuang, Wang Yan-Feng, and Wang Yue-Sheng. Loosely coupled reflective impedance metasurfaces:Precise manipulation of waterborne sound by topology optimization. Mechanical Systems and Signal Processing (SCI), 2022.

7. Jiang Mu, Zhou Hong-Tao, Li Xiao-Shuang, Fu Wen-Xiao, Wang Yan-Feng and Wang Yue-Sheng. Extreme transmission of elastic metasurface for deep subwavelength focusing. Acta Mechanica Sinica (SCI), 2022.

8. Zhou Hong-Tao, Fu Wen-Xiao, Li Xiao-Shuang, Wang Yan-Feng, Wang Yue-Sheng. Tunable arc-shaped acoustic metasurface carpet cloak. Smart Materials and Structures (SCI), 2020.

9. Chen A-Li, Li Zheng-Yang, Ma Tian-Xue, Li Xiao-Shuang, Wang Yue-Sheng. Heat reduction by thermal wave crystals. International Journal of Heat and Mass Transfer (SCI), 2018.

五、获得项目情况：（包括项目名称、项目级别、项目资助额度、获得项目时间等）

1、高层次人才引进项目，校级，5万元, 2021。