常鹏媛，博士，2022年毕业于北京大学电子学院电子科学与技术（量子电子学）专业，获博士学位；2022年8月入职南京邮电大学通信与信息工程学院。近年来，围绕量子精密测量、激光光电子以及高精密激光光谱等研究领域，发表学术论文20余篇，申请专利20余项，已获授权发明专利12项，2023年获江苏省双创博士；主持国家自然科学基金青年基金项目、国防技术基础研究项目、江苏省自然科学基金青年科学基金项目，获得中国计量测试学会科技进步一等奖（2024）、中国仪器仪表学会技术发明二等奖（2023）等，长期担任Applied Physics Letters、Optics Letters、Optics Express等本领域国内外核心期刊审稿人。教学方面目前承担本科生《通信原理》课程的教学任务。此外，除了致力于教学和基础科研的同时，还与企业进行科技合作，承担多项横向科技攻关项目，总经费达数百万元。

指导学生获得第九届中国国际“互联网+”大学生创新创业大赛北京赛区一等奖、中国国际大学生创新大赛（2023）铜奖等。

长期指导本科生和研究生开展科研工作，擅长为学生量身定制生涯规划，注重教学相长、因材施教。同时，可为学生提供企业实习机会，并为表现优异的学生推荐深造或就业机会。欢迎感兴趣的同学联系和加入！

邮箱联系方式：pychang@njupt.edu.cn

研究领域主要包括激光光电子技术、量子精密测量、光电元器件研发等。
研究工作软硬结合，主要涉及光学计算推导仿真、电路和光路系统的调试测试等。
研究生期间主要学习并熟练操作电路和光路系统，具备做实验的能力，熟练运用MATLAB、Origin、Tracepro、3Dmax、SolidWorks等相关编程画图工具，撰写相关专利、论文，形成可以胜任高新技术企业、研究所等单位的核心竞争力。

[1] 国家自然科学基金青年基金项目2026.01-2028.12

[2] 江苏省自然科学基金青年基金项目2024.09-2027.09

[3] 南京邮电大学引进人才科研启动基金（高水平师资）2022.12-2025.12

[4] 南京邮电大学自然科学基金2024.10-2025.10

[5] 江苏省“双创博士”项目 2023.10-2025.10

[6] 横向科技攻关项目，2023.05-2024.05

[7] 横向科技攻关项目，2023.10-2025.12

[1]  Pengyuan Chang, Xufeng Ling, Haoran Zhong, et al. Ultrahigh-resolution angle sensing based on a laser-frequency measurement, Physical Review A, 2025, 111(3): 033526.

[2] Pengyuan Chang, Haotian Li, Haoran Zhong, et al. Quantum frequency goniometer utilizing frequency measurement of continuously tuned laser. Applied Physics Letters, 2025, 126(21): 214001.

[3] Pengyuan Chang, Yuxuan Li, Haoran Zhong, et al. Quantum frequency goniometer with common mode noise cancellation, Optics Express, 2025, 33(15): 31542.

[4] Pengyuan Chang, Pengfei Guo, Xinrong Huang, Caolei Fu, Aiping Liu, Duo Pan, Zhiyang Wang, Jingbiao Chen, “An adjustment-free laser resonator based on micron-scale corner cube array,” Chinese Physics B, 34, 034201 (2025).

[5] Pengyuan Chang, Jingyang Liu, Xingyu Zhou, Jian Li, Xiaomeng Wang, Jingbiao Chen, Qin Wang, “Multi-frequency Doppler-free spectroscopy of cesium using an external cavity diode laser,” Journal of the Optical Society of America B, 40(8), 2221-2226 (2023).

[6] Pengyuan Chang, Hangbo Shi, Jianxiang Miao, Tiantian Shi, Duo Pan, Bin Luo, Hong Guo, Jingbiao Chen, “Frequency-stabilized Faraday laser with 10-14 short-term instability for atomic clocks,” Applied Physics Letters, 120(14), 141102 (2022).

[7] Pengyuan Chang, Duo Pan, Haosen Shang, Tiantian Shi, Bin Luo, Hong Guo, Jingbiao Chen, “Inter-ground-state crossover resonances formed in atomic vapor by a dual-frequency laser,” Journal of the Optical Society of America B, 38(2), 435-440 (2021).

[8] Pengyuan Chang, Duo Pan, Haosen Shang, Tiantian Shi, Jingbiao Chen, “A global crossover saturated-absorption spectroscopy induced by dual-frequency laser,” Journal of Physics B-Atomic Molecular and Optical Physics, 53(20), 205402 (2020

[9] Pengyuan Chang, Shengnan Zhang, Haosen Shang, Jingbiao Chen, “Stabilizing diode laser to 1 Hz-level Allan deviation with atomic spectroscopy for Rb four-level active optical frequency standard,” Applied Physics B: Lasers and Optics, 125(11), 196 (2019).

[10] Pengyuan Chang, Yilai Chen, Haosen Shang, Xiaolei Guan, Hong Guo, Jingbiao Chen, Bin Luo, “A Faraday laser operating on Cs 852 nm transition,” Applied Physics B: Lasers and Optics, 125(12), 230 (2019).

[11] Pengyuan Chang, Bo Pang, Yisheng Wu, Jingbiao Chen, “Excited-state population distributions of alkaline-earth-metal in hollow cathode lamp,” Chinese Optics Letters 16(3), 033001 (2018).

[12] Pengyuan Chang, Huanfa Peng, Shengnan Zhang, Zhangyuan Chen, Bin Luo, Jingbiao Chen, Hong Guo, “A Faraday laser lasing on Rb 1529 nm transition,” Scientific Reports, 7(1), 8995 (2017).

[13] Pengyuan Chang, Tiantian Shi, Shengnan Zhang, Haosen Shang, Duo Pan, Jingbiao Chen, “Faraday laser at Rb 1529 nm transition for optical communication systems,” Chinese Optics Letters, 15(12), 121401 (2017).

[14] Hangbo Shi, Pengyuan Chang, Zhiyang Wang, Zijie Liu, Tiantian Shi, Jingbiao Chen, “Frequency stabilization of a Cesium Faraday laser with a double-layer vapor cell as frequency reference”, IEEE Photonics Journal, 14(6), 1561006 (2022).

[15] Tiantian Shi, Xiaolei Guan, Pengyuan Chang, Jianxiang Miao, Duo Pan, Bin Luo, Hong Guo, Jingbiao Chen, “A dual-Frequency Faraday laser,” IEEE Photonics Journal, 12(4), 1503211 (2020).

[16] Tiantian Shi, Duo Pan, Pengyuan Chang, Haosen Shang, Jingbiao Chen, “A highly-integrated single-mode 1064 nm laser with 8.5 kHz linewidth for dual-wavelength active optical clock,” Review of Scientific Instruments, 89(4), 043102 (2018).

[17] Shengnan Zhang, Xiaogang Zhang, Jingzhong Cui, Zhaojie Jiang, Haosen Shang, Chuanwen Zhu, Pengyuan Chang, Ling Zhang, Jianhui Tu, Jingbiao Chen,“Compact Rb optical frequency standard with 10-15 stability,” Review of Scientific Instruments, 88, 103106 (2017).

[18] Qi Zhou, Pengyuan Chang, Zhongzheng Liu, Chuanwen Zhu, Jingbiao Chen, “Cs 5D5/2-6F 728 nm laser spectroscopy with single pumping laser,” Chinese Physics Letters, 34(3), 53-56 (2016).