性别：女 || 出生年月：1989年8月 || 政治面貌：中共党员

现任职称：副教授

最后学历：研究生 || 最后学位：博士 || 获学位单位：中国科学院大学

联系方式： || 邮箱：yuanpei@bistu.edu.cn || 通讯地址：BV伟德国际官方网站酒仙桥校区

导师信息

硕导/博导：硕导 || 批硕/博导时间：2020年

在读硕士：2 || 毕业硕士：0

所属院系、学科及研究方向

所属学院：伟德bv国际体育

所属系：智能感知工程系

所属学科：仪器科学与技术

研究方向1：半导体光电子集成器件

研究方向2：光纤传感与光子集成波长解调技术

研究方向3：硅基光电子学

工作简历

2019年9月-2019年12月 BV伟德国际官方网站 讲师

2019年12月-今 BV伟德国际官方网站 副教授

承担教学任务

本科生：《智能信息新技术导论》、《软件技术基础》

研究生：《文献阅读与写作》

承担科研项目情况

1.2023-2025：国家自然科学基金青年基金项目，基于相位差分输入结构的阵列波导光栅密集光谱解调机制研究，主持

2.2022-2024：北京市教委科研计划科技一般项目，用于光子集成光纤光栅解调系统的阵列波导光栅关键技术研究，主持

主要论文目录

1. P. Yuan, Y. Wang, Y. Wu, et al. Design and fabrication of wavelength tunable AWGs based on the thermo-optic effect. Chinese Optics Letters, 2018, 16(1):010601

2. P. Yuan, Y. Wang, Y. Wu, et al. Design and fabrication of two kind of SOI-based EA-type VOAs. Optics and Laser Technology, 2018, 102:166-173

3. P. Yuan, Y. Wang, Y. Wu, et al. 25-channel 200 GHz AWG based on SOI ridge waveguides. Journal of Infrared and Millimeter Waves, 2018, 37(6):673-678

4. P. Yuan, Y. Wang, Y.D. Wu, et al. 16-channel dual-tuning wavelength division multiplexer/demultiplexer. Chinese Physics B, 2018, 27(12):124208

5. P. Yuan, Y. Wang, Y. Wu, et al. Improved performance of a wavelength tunable arrayed waveguide grating based on SOI. Chinese Physics Letters, 2019, 36(5):054204

6. P. Yuan, Y. Wang, Y. Wu, et al. Variable optical attenuators based on SOI with 3μm top silicon layer. Applied Optics, 2019, 58(17):4630-4636

7. P. Yuan, Y. Wang, Y. Wu, et al. Monolithic integration of a wavelength division multiplexer/ demultiplexer and electro-absorption VOAs based on 3 μm-SOI. Infrared and Laser Engineering, 2019, 48(8):0818004

8. P. Yuan, Y. Wang, Y. Wu, et al. Design and fabrication of an etching diffraction grating based on photonic crystal reflection mirrors. Infrared and Laser Engineering, 2019, 48(9):0916005

9. P. Yuan, S Weng, S Ji, et al. Performance analysis of fiber Bragg grating sensor interrogators based on arrayed waveguide gratings, Optical Engineering, 2021, 60(6):066101

10. S Weng, P. Yuan, W Zhuang, et al. SOI-Based Multi-Channel AWG with Fiber Bragg Grating Sensing Interrogation System, Photonics, 2021, 8(6): 214

11. S Weng, P. Yuan, L. Lu, et al. SOI-based arrayed waveguide grating with extended dynamic range for fiber Bragg grating interrogator, Optical Fiber Technology, 2021 68:102815

12. K. Li, P. Yuan, L. Lu, et al. PLC‐Based Arrayed Waveguide Grating Design for Fiber Bragg Grating Interrogation System, nanomaterials, 2022, 12:2938

13. Ting Li, Pei Yuan, et al. SOI-based 12 X 12 arrayed waveguide grating for fiber Bragg grating interrogation system, Measurement Science and Technology, 34(2023):115201

14. Shufeng Li, Pei Yuan, et al. SOI-based 15-channel arrayed waveguide grating design for fiber Bragg grating interrogator,Photonics and Nanostructures - Fundamentals and Applications.53(2023):101113

15.Shufeng Li, Pei Yuan, et al. High-performance interrogator with bilateral inputMMI-based AWG, Optics Letters, 2024,49(3):454-457

16.Ting Li, Pei Yuan, et al. Monolithic integrated chip of AWG and PD for an FBG interrogation system, Optics Express,2024,32(9):15827-15839

17.Bingxiang Li, Pei Yuan, et al. High Performance AWG-BasedFBG Interrogator Using Cascaded NeuralNetwork, Journalof Lightwave Technology, 2024,42(24):8802-8810

18.Ran Xu, Pei Yuan, et al. A multi-channelAWG-basedFBG interrogation system using a 1 X 4 MEMS opticalswitch, Optical Fiber Technology, 88(2024)104004

19.Yiyao Yang, Pei Yuan, et al. Large bandwidth array waveguide grating design for FBG interrogation system, Infrared Physics and Technology, 143(2024)105599

20.Yiyao Yang, Pei Yuan, et al. Performance analysis of PLC-based 32-channel arrayed waveguide grating used for FBG interrogator, Infrared Physics and Technology, 137(2024)105131

21.Yiyao Yang, Pei Yuan, et al. Study of hybrid integrated PLC-AWG chip for FBG demodulation, Optical Fiber Technology, 84(2024)103734