王雅君

课题组主页:山西大学光电研究所-量子传感实验室

简历

王雅君,博士,1983年3月生,现任光电研究所教授,博士/硕士生导师,近年来在Physics Review LettersLaser & Photonics ReviewsApplied Physics LettersOptics LettersOptics ExpressOptics & Laser TechnologyIEEE J. Quantum ElectronicsScientific Reports和中国激光等国内外重要学术期刊发表学术论文60余篇,申请与授权国家发明专利30余项,主持与参与科技部、国家基金委和山西省教育厅等项目10余项。

研究方向:光量子器件与激光技术、非线性光学、精密测量等。

邮箱:YJWangsxu@sxu.edu.cn/ wangyajun_166@163.com

联系电话:03517210822


教育经历:

2010/9 - 2014/7,山西大学,光电研究所,博士

2008/9 - 2010/07,山西大学,光电研究所,硕士

2004/9 - 2008/7,山西大学,物理电子工程学院,学士


科研与学术工作经历:

1. 2022/01-至今,山西大学,光电研究所,教授

2. 2021/2-2021/7,钱学森空间技术实验室访问学者

3. 2016/12 –2022/01,山西大学,光电研究所,副教授

4. 2014/7 – 2016/12,山西大学,光电研究所,讲师

主持或参加科研项目(课题)情况:

1. **基金项目-国家级子课题,***增强探测技术研究,2023/01-2025/1260万元,在研,主持

2. 航天院CAST创新基金项目,超越标准量子噪声极限的微角秒干涉测量技术,2022/11-2023/1020万元,在研,主持

3. 横向项目,角距测量地面验证系统研制,2023/10-2025/8170万元,在研,主持

4. 国家自然科学基金,62375162,面向量子精密测量的量子—经典反馈控制机理研究,2024/01-2027/1248万元,在研,主持

5. 国家自然科学基金面上项目,11874250,基于宽频带压缩态光场的量子激光雷达亚散粒噪声相干探测研究,2019/01/01-2022/12/3164万元,已结题,主持

6. 国家自然科学青年基金,11504220,非线性吸收损耗对压缩态光场量子噪声特性影响的实验与理论研究,2016/01-2018/1228.8万元,已结题,主持

7. 国家自然科学基金面上项目,61575114,与锂原子跃迁线相匹配的压缩真空态的实验制备,2016/01-2019/1263万元,已结题,参与

8. 国家自然科学基金面上项目,61574087,基于压缩态光场的自旋噪声谱仪对单自旋量子态的精密测量,2016/01-2019/1269万元,已结题,参与

9. 山西省青年科技研究基金,2015021022,连续变量非经典光场发生器样机的研制及其相位控制技术的研究,2015/01-2017/123万元,已结题,主持

10. 国家自然科学基金专项基金项目,61227015,连续变量量子纠缠态光源样机的研制,2013/01-2017/12290万元,已结题,参与

11. 国家自然科学青年基金,610080011.3μm波段连续变量量子纠缠态的制备及其在光纤中传输特性的研究,2011/01-2013/1222万元,已结题,参与

12. 山西省青年基金,2011021003-21.3μm波段连续变量量子纠缠态的制备及其在光纤中传输特性的研究,2011/01-2013/128万元,已结题,参与

13. 山西省专利推广实施资助项目,111001,单频可调谐激光器,2011/03-2012/038万元,已结题,参与


课程教学:

激光技术、激光原理、激光光学、非线性光学、量子电子学、大学物理学、物理光学、寻找时空的涟漪(引力波)、光电子导论与非线性光学等。


代表性论文:

1. Ruixin Li, Nanjing Jiao, Bingnan An, Yajun Wang,∗Wei Li, Lirong Chen, Long Tian, Yaohui Zheng. Optimizing frequency noise calibration and manipulation in an active feedback control loop. Optics & Laser Technology, 174 (2024) 110617.

2. Qinghui Li, Mingjian Ju, Xin Shang, Zhenglei Ma, Wei Li, Yajun Wang, Lirong Chen, Linjie Zhang, Pengfei Zhang, Yaohui Zheng. Broadband and robust Mach-Zehnder interferometer for Rydberg atomic system. Optics Express 32, 5492 (2024).

3. Sun. Y, Tian. Y, Wang. Y*, Jiao. N, Ju. M, Wang. W, An. B, Shi. S, Tian. L, Zheng. Y* Squeezing level strengthened by a temperature dependent dispersion compensation methodology. Optics Communications, 129192(2022).

4.  李庆回, 李卫, 孙瑜, 王雅君, 田龙, 陈力荣, 张鹏飞, 郑耀辉. 面向第三代地基引力波探测的激光源需求分析. 物理学报, 2022, 71(16): 164203.

5. 张晓莉, 王庆伟, 姚文秀, 史少平, 郑立昂, 田龙, 王雅君, 陈力荣, 李卫, 郑耀辉,热透镜效应对半整块腔型中二次谐波过程的影响,物理学报,71(18): 184203(2022).

6.  张超群, 李瑞鑫, 张文慧, 焦南婧, 田龙, 王雅君*, 郑耀辉. 光学滤波腔输出场音频段噪声特性的实验研究. 物理学报, 2022, 71(24): 244205.

7. Y. Wu , Q. Wang, L. Tian, X. Zhang, J. Wang, S. Shi, Y. Wang, Y. Zheng, “Multi-channel multiplexing quantum teleportation based on the entangled sideband modes. Photon. Res. 10(1909-1914)(2022).

8.  Shi, S.#, Wang, Y.#, Tian, L., Li, W., Wu, Y., Wang, Q., Zheng, Y., Peng, K., Continuous Variable Quantum Teleportation Network. Laser & Photonics Reviews,2022, 2200508.

9.  Sun, X.#, Wang, Y.#, Tian, L., Wang, Q., Tian, L., Zheng, Y., & Peng, K. Deterministic and Universal Quantum Squeezing Gate with a Teleportation Like Protocol. Laser & Photonics Reviews, 2100329 (2021).

10.  Jiao, N; Li, R; Wang, Y*; Zhang, W; Zhang, C; Tian, L; Zheng, Y*. Laser Phase Noise Suppression and Quadratures Noise Intercoupling in a Mode Cleaner. Optics & Laser Technology 2022, 154, 108303.

11.  Yuhang Tian, Xiaocong Sun, Yajun Wang*, Qinghui Li, Long Tian, and Yaohui Zheng*. Cavity enhanced parametric homodyne detection of a squeezed quantum comb. Opt. Lett. 47, 533-536 (2022)

12.  Xiaocong Sun, Yajun Wang*, Yuhang Tian, Qingwei Wang, Long Tian, Ya、ohui Zheng*, and Kunchi Peng, Deterministic and universal quantum squeezing gate with a teleportation-like protocol, Laser & Photonics Reviews, 2022 16(3), 2100329.

13.  Wang Yajun, Zhang Wenhui, Li Ruixin, Tian Long, and Zheng Yaohui*. Generation of −10.7 dB unbiased entangled states of light. Appl. Phys. Lett. 2021 118(13), 134001.

14. Wang Yajun, Tian Yuhang, Sun Xiaocong, Tian Long, and Zheng Yaohui*. Noise transfer of pump field noise with analysis frequency in a broadband parametric downconversion process. Chin. Opt. Lett. 2021 19(5), 052703.

15.  王雅君,王俊萍,张文慧,李瑞鑫,田龙,郑耀辉*. 光学谐振腔的传输特性. 物理学报,70 (20) 204202 (2021)

16. 王雅君, 高丽, 张晓莉, 郑耀辉*. 用于精密测量的低噪声激光器研究进展. 红外与激光工程, 49(12): 20201073-20201073 (2020).

17.  Wang Qingwei#, Wang Yajun#, Sun Xiaocong , et al. Controllable continuous variable quantum state distributor[J]. Optics Letters, 2021, 46(8): 1844.

18.  Zhang Wenhui, Li Ruixin, Wang Yajun*, Wang Xuyang, Tian Long, Zheng Yaohui*. Security analysis of continuous variable quantum key distribution based on entangled states with biased correlations[J]. Optics Express, 2021, 29(14): 22623-22635.

19.  Zhang Wenhui, Jiao Nanjing, Li Ruixin, Tian Long, Wang Yajun*, Zheng Yaohui*. Precise control of squeezing angle to generate 11 dB entangled state[J]. Optics Express, 2021, 29(15): 24315-24325.

20. 王俊萍, 张文慧, 李瑞鑫, 田龙, 王雅君*, 郑耀辉, 宽频带压缩态光场光学参量腔的设计,物理学报,69(23): 234204(2020).

21. Yao Wenxiu, Wang Qingwei, Tian Long, Li Ruixin, Shi Shaoping, Wang Yajun, Zheng Yaohui*. Realizing high efficiency 532 nm laser by optimizing the mode-and impedance-matching. Laser Physics Letters, 18(1), 015001. (2021).

22.  李庆回,姚文秀,李番,田龙*,王雅君,郑耀辉,明亮压缩态光场的操控及量子层析,物理学报,2021, 70(15) 154203

23.  高丽, 张晓莉, 马菁汀, 姚文秀, 王庆伟, 孙悦, 刘尊龙, 王雅君, 田龙*, 郑耀辉. 基于集成量子压缩光源的量子增强多普勒激光雷达, 红外与激光工程 2021 50(3), 20210031.

24.  Qingwei Wang, Yuhang Tian, Wei Li, Tian Long, Wang Yajun, Zheng Yaohui*. High-fidelity quantum teleportation toward cubic phase gates beyond the no-cloning limit[J]. Physical Review A, 2021, 103(6): 062421.

25. Tian Long, Shi Shaoping, Tian Yuhang, Wang Yajun, Zheng Yaohui*, Peng Kunchi. Resource reduction for simultaneous generation of two types of continuous variable nonclassical states. Frontiers of Physics, 2021, 16(2), 1-6.

26.  田宇航, 王俊萍, 杨文海, 田龙*, 王雅君, 郑耀辉. 集成量子压缩光源中MgO∶LiNbO3晶体倍频系统研究. 中国激光, 47(11): 1108001(2020).

27. Shaoping Shi, Long Tian, Yajun Wang, Yaohui Zheng, Changde Xie, and Kunchi Peng. Demonstration of Channel Multiplexing Quantum Communication Exploiting Entangled Sideband Modes. Phys. Rev. Lett. 125(7), 070502 (2020).

28.  Shaoping Shi, Yajun Wang, Long Tian, Jinrong Wang, Xiaocong Sun, and Yaohui Zheng*. Observation of a comb of squeezed states with strong squeezing factor by a bichromatic local oscillator. Opt. Lett. 45(8), 2419-2422 (2020).

29.  田龙, 王庆伟, 姚文秀, 李庆回, 王雅君, 郑耀辉*. 高效外腔倍频产生 426 nm 激光的实验研究. 物理学报, 4. (2020).

30. Qingwei Wang, Wei Li, Yimiao Wu, Wenxiu Yao, Fan Li, Long Tian, Yajun Wang, Yaohui Zheng*. Demonstration of 1→3 continuous-variable quantum telecloning. Phys. Rev. A, 104, 032419(2021).

31.  Wenhui Zhang, Jinrong Wang, Yaohui Zheng, Yajun Wang* and Kunchi Peng, Optimization of the squeezing factor by temperature-dependent phase shift compensation in a doubly resonant optical parametric oscillator, Applied Physics Letters, 2019, 115: 171103.

32.  Jinrong Wang, Wenhui Zhang, Long Tian, Yajun Wang, Rongcao Yang, Jing Su and Yaohui Zheng, Balanced Homodyne Detector with Independent Phase Control and Noise Detection Branches, IEEE access, 2019, 7:57054.

33.  Xiaocong Sun, Yajun Wang, Long Tian, Shaoping Shi, Yaohui Zheng and Kunchi Peng, Dependence of the squeezing and anti-squeezing factors of bright squeezed light on the seed beam power and pump beam noise, Optics Letters, 2019, 44:1789.

34.  Xiaocong Sun, Yajun Wang, Long Tian, Yaohui Zheng and Kunchi Peng, detection of 13.8 dB squeezed vacuum states by optimizing the interference efficiency and gain of balanced homodyne detection, Chinese Optics Letters, 2019, 17:072701.

35.  Qinwei Wang, Long Tian, Wenxiu Yao, Yajun Wang and Yaohui Zheng, Realizing a high-efficiency 426nm laser with PPKTP by reducing mode-mismatch caused by the thermal effect, Optics Express, 2019, 27:28534.

36.  Zhixiu Li, Yuhang Tian, Yajun Wang, Yaohui Zheng and Kunchi Peng, Residual amplitude modulation and its mitigation in wedged electro-optic modulator, Optics Express, 2019, 27:7064.

37.  Zhixiu Li, Xiaocong Sun, Yajun Wang, Yaohui Zheng and Kunchi Peng, Investigation of residual amplitude modulation in squeezed state generation system, Optics Express, 2018, 26:18957.

38. Yajun Wang,Zhixiu Li,Yaohui Zheng*,Jing Su,Determination of the Thermal Lens of a PPKTP Crystal Based on Thermally Induced Mode-Mismatching, IEEE J. Quantum Electronics, 2017, 53(1):7000307

39.  Yajun Wang,Wenhai Yang,Zhixiu Li,Yaohui Zheng*,Determination of blue-lightinduced infrared absorption based on mode-matching efficiency in an optical parametric oscillator, Sci. Rep., 2017, 7:41405

40. Yajun Wang, Wenhai Yang, Yaohui Zheng*, and Kunchi Peng, A compact Einstein-Podolsky-Rosen entangled light source, Chin. Phys. Lett. 2015, 24(7): 070303

41.  Yajun Wang, Wenhai Yang, Haijun Zhou and Yaohui Zheng*, Temperature dependence of the fractional thermal load of NdYVO4 at 1064 nm lasing and its influence on laser performance, Opt. Express. 2013, 21(15):18068-18078

42. Yajun Wang, Yaohui Zheng*, Zhu Shi and Kunchi Peng, High-power single-frequency Nd:YVO4 green laser by self-compensation of astigmatisms, Laser Physics Letter, 2012,9(7): 506-510

43.  Shaoping Shi, Yajun Wang, Wenhai Yang, Yaohui Zheng, and Kunchi Peng, Detection and perfect fitting of 13.2 dB squeezed vacuum states by considering green-light-induced infrared absorption, Opt. Lett. 2018, 43(21): 5411-5414

44.  Wenhai Yang, Shaoping Shi, Yajun Wang, et al. Detection of stably bright squeezed light with the quantum noise reduction of 12.6 dB by mutually compensating the phase fluctuations, Opt. Lett., 2017, 42(21), 4553.

45.  Li Zhixiu, Ma Weiguang, Yang Wenhai, Yajun Wang et al. Reduction of zero baseline drift of the Pound-Drever-Hall error signal with a wedged electro-optical crystal for squeezed state generation, Optics Letters, 2016, 41(14):3331.

46.  Yajun Wang, Yaohui Zheng*, Changde Xie and Kunchi Peng, High-power low-noise Nd:YAP/LBO laser with dual wavelength outputs, IEEE J. Quant. Electron. 2011, 47(7): 1006-1013

47.  Wenhai Yang, Yajun Wang, Yaohui Zheng* and Huadong Lu, Comparative study of the frequency-doubling performance on ring and linear cavity at short wavelength region, Optics Express, 2015, 23(15): 19624-19633

48.  史少平,杨文海,郑耀辉,王雅君*,压缩态光场制备中的单频激光源噪声分析,中国激光,2019,46:0701009.

49.  张文慧,杨文海,史少平,郑耀辉,王雅君*,高压缩度压缩态光场制备中的模式匹配,中国激光,2017,(44)11:1112001

50.  李志秀,杨文海,王雅君*,郑耀辉,用于795nm压缩光源的单频激光系统的优化设计,中国激光,2015, 42(9):0902002

51.  杨文海,王雅君,郑耀辉,彭堃墀,小型化、低噪声内腔倍频Nd:YAP/KTP单频激光器, 中国激光, 2015, 41(5), 05020022014.

52.  王雅君,杨文海,郑耀辉,彭堃墀,抽运波长及Nd3+掺杂浓度对内腔倍频单频激光器性能的影响,中国激光,2013,40:0602005.

53. Zheng Yaohui*, Zhou Haijun, Wang Yajun and Wu Zhiqiang, Suppressing the preferential s–polarization oscillation in high power Nd:YVO4 laser with wedge laser crystal, Chinese Physics B, 2013, 22(8): 084207.

54.  邬志强,周海军,王雅君,郑耀辉*,利用自制的单频激光器获得近通讯波段正交振幅压缩态光场,量子光学学报,2013,19(1):1-5

55. Yaohui Zheng*, Yajun Wang, Changde Xie, and Kunchi Peng, Single-frequency Nd:YVO4 laser at 671 nm with high output power of 2.8W, IEEE J. Quant. Electron., 2012, 48(1): 67-71.

56. Yaohui Zheng*, Yajun Wang, and Kunchi Peng, High-power single-frequency laser at 540nm by intracavity frequency doubling of a Nd:YAP laser, Chin. Phys. Lett., 2012, 29(4): 044208.

57.  郑耀辉*,王雅君,彭堃墀,“输出功率为21.5W的单端抽运Nd:YVO4/LBO单频激光器”,中国激光,2012,39(6): 0602011。

58. 郑耀辉*, 王雅君,彭堃墀,一种利用像散腔测量热透镜焦距的方法,中国激光,2011, 38(9): 0908006.

59. Yaohui Zheng, Fengqin Li, Yajun Wang, Kuanshou Zhang*, Kunchi Peng, High-stabiliby single-frequency green laser with a wedge Nd:YVO4 as a polarizing beam splitter, Opt. Commun., 2010, 283: 309-312.

60.  王雅君,郑耀辉*,李凤琴,彭堃墀,全固态高功率单频激光器,量子光学学报,2010,16(3):230-239.


授权发明专利:

1王雅君,郑耀辉,彭堃墀,一种非线性晶体吸收系数的测量方法,2018.10.16,中国,ZL201610328935.1

2.   王雅君,郑耀辉,彭堃墀,一种非线性晶体热透镜焦距的测量方法,2018.04.24,中国,ZL201610328103.X

3.   王雅君,郑耀辉,杨文海,彭堃墀,一种连续变量量子纠缠源产生装置,2015.04.15,中国,ZL201310125998.3

4.    王雅君,武奕淼,郑耀辉,田龙,一种提取真空边模的装置和方法 2021.04.12CN202110390863.4

5.    王雅君,张文慧,孙瑜,郑耀辉,田龙,一种利用倍频腔抑制激光强度噪声的装置及其测量方法,2021.01.27,中国, CN202110113607.0  

6.   王雅君,武奕淼,郑耀辉,田龙,一种快速精确测量光学腔自由光谱区的装置及方法,2020.09.22,中国,CN202011004925.5                          

7.  王雅君,李瑞鑫,郑耀辉,田龙,一种可温控的电光振幅调制器及测试方法,2019.11.21,中国,CN201911151557.4  

8.   王雅君,张文慧,郑耀辉,彭堃墀,一种测量光学腔双共振温度条件的装置和方法,2018.12.07,中国,CN201811490989.3

9.   王雅君,张文慧,郑耀辉,彭堃墀,一种提高压缩光探测装置干涉效率的方法,2018.12.07,中国,CN201811490988.9              

10.  王雅君,王俊萍,张文慧,郑耀辉,一种相位自补偿的非经典光场发生器,2019.07.30,中国, CN201910362319.1

11.   王雅君,张文慧,郑耀辉,一种可快速精确调节两光学腔输出信号光干涉的装置,2017.11.14,中国,CN201711121394.6              

12.   王雅君,张文慧,郑耀辉,一种可快速调节连续变量纠缠源信号光干涉的装置,2017.11.14,中国,CN201711122947.X