张海伟（副教授）-集成电路科学与工程2023

光电信息科学与工程系

张海伟（副教授）

2023-03-19 17:08 审核人：

基本情况：

姓名：张海伟

学历学位：工学博士研究生

职称：副教授

研究方向：光纤光子学

邮箱：zhanghaiwei@email.tjut.edu.cn

办公地点：29-342、29-327B

所在团队名称：光纤光子学课题组

团队负责人：苗银萍

可招收硕博专业：光电信息科学与工程

项目：

1. 国家自然科学基金青年项目，基于纵模竞争的自动切换有源光热痕量气体传感机理研究，主持。

2. 天津市自然科学基金青年项目，掺铥光纤有源内腔混合气体组分精准识别与浓度检测方法的研究，主持。

3. 天津市教委科研计划项目，双波长单频有源内腔高性能多参量同时传感技术研究，主持。

4. 国家自然科学基金面上项目，用于水质实时监测的光纤传感与无线网络融合技术研究，参与。

5. 国家自然科学基金委员会青年项目，基于差动式激光自混合干涉的磁悬浮加速度计质量块姿态测量技术，参与。

论文：

1. Rong Tianjin, Haiwei Zhang*, Yao Feng, et al. Sensitivity enhanced all-fiber displacement sensor compatible with passive and intracavity system based on Lyot filter; OPTICS COMMUNICATIONS: 533, 129247, 2023.

2. Qianzhe Wang, Haiwei Zhang*, Guangjun Ren, et al. Photosensitive silicon-based tunable multiband terahertz absorber; OPTICS COMMUNICATIONS: 523, 128681, 2022.

3. Mingpan Bi, Haiwei Zhang*, Yan Zhao, et al. Theoretical and experimental investigation of intracavity displacement-sensor based on all-single-mode fiber; JOURNAL OF LIGHTWAVE TECHNOLOGY: 40(8), 2585-2593, 2022.

4. Minjia Ren, Haiwei Zhang*, Pengbo Jiang, et al. All-fiber hybrid displacement-sensing system based on self-mixing interference and intracavity spectroscopy; OPTICS COMMUNICATIONS: 505, 127578, 2022.

5. Yan Zhao, Yonghang Zhao, Haiwei Zhang*, et al. Rotation angle measurement method based on self-mixing interference of a fiber laser; Applied Optics: 6(11), 3174-3181, 2022.

6. Dehuai Xie, Haiwei Zhang*, Guangyao Wang, et al. Sensitivity and linearity enhanced wide-detection range surface-plasmon-resonance photonic-crystal-fiber sensor; RESULTS IN PHYSICS: 29, 104707, 2021.

7. Yan Zhao; Haiwei Zhang*; Angle measurement method based on speckle affected laser self-mixing interference signal; OPTICS COMMUNICATIONS: 482, 126569-1-7, 2021.

8. Haiwei Zhang; Liangcheng Duan; Yan Zhao*, et al. Theoretical modeling of multi-channel intracavity spectroscopy technology based on mode competition in er-doped fiber ring laser cavity; SENSORS: 20, 2539, 2020.

9. Yan Zhao; Haiwei Zhang*. Displacement measurement method based on laser self-mixing interference in the presence of speckle; CHINESE OPTICS LETTERS: 18(5), 051201, 2020.

10. Yao Feng, Mingda Zhao, Haiwei Zhang*, et al. All fiber human heart-rate sensor based on the evanescent field disturbance in no-core fiber; PROCEEDINGS OF SPIE: 12321, 1232105, 2022.

11. Bi Mingpan; Zhang Haiwei*; Xue Lifang; Miao Yinping; Wei Shi; Yao Jianquan; All-single-mode fiber intracavity displacement sensor based on Er-doped fiber ring laser, PROCEEDINGS OF SPIE: 11554, 115540K, 2020.