个人情况
姓名:王康妮
职称:副教授
邮箱:yishuihetian@126.com
研究方向:1. 全息聚合物分散液晶光栅;2. 微纳光学器件
简介:
王康妮,女,博士研究生,毕业于上海理工大学光学工程专业。从事全息聚合物分散液晶光栅及其应用等相关研究,主持国家自然科学基金青年基金项目、江苏省高等学校自然科学研究面上项目、江苏师范大学科研启动项目等。在Optics Express、Optics Letters等期刊发表SCI论文30余篇,申请发明专利多项。
工作简历
2022.07 至今 江苏师范大学 副教授
2021.06-2022.07 江苏师范大学 讲师
教授课程
信号与系统;电路分析;电子测量
主持项目
1.国家自然科学基金青年基金项目:“基于掺杂纳米银的全息聚合物分散液晶光栅实现连续调谐有机分布反馈激光器的研究”,主持。
2.江苏省高等学校自然科学研究面上项目:“纳米银掺杂的液晶/聚合物光栅分布反馈激光器的研究”,主持。
3.江苏师范大学博士教师科研项目:“基于全息光栅实现染料激光器出射增强的研究”,主持。
代表性论文(第一/通讯作者)
1. Linyong Qian, Xin Zhang, Kangni Wang, et al. Miniaturized guided-mode resonance laser based on a one-dimensional finite heterostructure cavity. Optics Letters, 2024, 49 (5): 1317. 2.Kangni Wang, Dmitry A. Bykov, and Linyong Qian. Tunable nanolaser based on quasi-BIC in a slanted resonant waveguide grating. Optics Letters, 2023, 48(15): 4121.
3. Linyong Qian, Tiancheng Gu, Kangni Wang, et al. Guided-mode resonance sensors with ultrahigh bulk sensitivity and figure of merit assisted by a metallic layer and structural symmetry-breaking. Optics Express, 2023, 31(2): 1844.
4. Tiancheng Gu, Linyong Qian, Kangni Wang, et al. Low-threshold lasing behavior based on quasi-bound states in the continuum in a slanted guided-mode resonance nanocavity. Optics Express, 2022, 30(20): 36526.
5. Linyong Qian, Dmitry A. Bykov, Kangni Wang, et al. Improving the sensitivity of guided-mode resonance sensors under oblique incidence condition. Optics Express, 2019, 27(21): 30563.
6. Tiancheng Gu, Linyong Qian, Kangni Wang. Flat-top filter using slanted guided-mode resonance gratings with bound states in the continuum, Optics Communications, 2022, 521: 128569.
7. Kangni Wang, Ting Zheng, Tiancheng Gu, et al. Controllable lasing behavior enabled by the transmission guided-mode resonance effect in coupled gratings, Optics Communications, 2022, 511: 128010.
8. Haitao Li, Kangni Wang, Linyong Qian. Self-assembly of wedge-shaped PDMS substrate for the fabrication of variable line-space gratings, Optical Engineering, 2021, 60(8): 085110.
9. Kangni Wang, Tao Cui, Linyong Qian. Controlling electric field distribution to enhance laser emission with low-refractive-index separation layer in sparse resonant grating, Optical Engineering, 2021, 60(7): 075102.
10. Kangni Wang, Tao Cui, Kaige Gao, et al. Enhanced lasing behavior enabled by guided-mode resonance structure embedded with double waveguide layers. Applied Optics, 2020, 59(20): 6113-6118.
11. Kangni Wang, Jihong Zheng, Linyong Qian, et al. Enhanced wavelength-sensitivity of volume holographic grating with dual-photoinitiation system in polymer dispersed liquid crystal. Liquid Crystals, 2019, 46(4): 570-576.
12. Kangni Wang, Jihong Zheng, Yourong Liu, et al. Wide-viewing-angle switchable image splitter obtained using varied-line-spacing H-PDLC Bragg grating, Liquid Crystals, 2017, 44(9): 1365-1373.
13. Kangni Wang, Jihong Zheng, Hui Gao, et al. Tri-color composite volume H-PDLC grating and its application to 3d color autostereoscopic display, Optics Express, 2015, 23(24): 31436-31445.
14. Kangni Wang, Jihong Zheng, Hui Gao, et al. Electrically tunable two-dimensional holographic polymer-dispersed liquid crystal grating with variable period, Optics Communications, 2017, 392: 128-134.
15. Kangni Wang, Jihong Zheng, Feiyue Lu, et al. Varied-line-spacing switchable holographic grating using polymer-dispersed liquid crystal, Applied Optics, 2016, 55(18): 4952-4957.
16. Kangni Wang, Jihong Zheng, Yiyang Chen, et al. Design of dynamic gain equalizer with H-PDLC reflection gratings doped with Ag nanoparticles, IEEE Photonics Technology Letters, 2015, 27(10): 1048-1051.
17. Kangni Wang, Jihong Zheng, Kun Gui, et al. Improvement on the performance of holographic polymer-dispersed liquid crystal gratings with surface plasmon resonance of Ag and Au nanoparticles, Plasmonics, 2015, 10(2): 383-389.