袁扬胜,男,1980年09月出生,博士,教授,博士生导师。2013年06月毕业于苏州大学物理科学与技术学院,获光学专业博士学位;2014年06月-2016年05月在深圳大学从事博士后研究。2013年07月-2018年9月,安徽师范大学物理与电子信息学院讲师、副教授。2018年10月-,伟德国际1946源于英国副教授,教授。主要从事光束变换、光束传输和激光光通信研究,在Appl. Phys. Lett., Opt. Express, IEEE Photon. J, IEEE Photon. Technol. Lett. 和Sci. Rep.等学术刊物上发表研究论文30余篇,他引200余次。获授权国家发明专利1项。主持国家自然科学基金3项,省级自然科学基金项目2项,参与国家重点研发计划项目课题1项,参与国家自然科学基金项目4项。
招生方向
硕士研究生招生专业:光学/光学工程
博士研究生招生专业:光学
研究方向
激光光通信;光束传输与变换;大气光学
主持和参与科研项目:
1. 基于几何图样编译码大容量自由空间光通信研究,国家自然科学基金面上项目(12174227), 60万,2022.01-2025.12, 主持
2. 非相干拓扑结构光场调控及应用,国家重点研发计划项目课题(2022YFA1404800), 616万, 2022.12-2027.11, 参与
3. 大气湍流扰动下的涡旋光束光通信理论及实验研究,国家自然科学基金面上项目(11974219), 62万,2020.01-2023.12, 主持
4. 涡旋光束激光通信受大气湍流影响的理论和实验研究,山东省自然科学基金面上项目(ZR2019MA028),17万, 2019.07-2022.06, 主持
5. 特殊关联结构的部分相干光束的实验产生和传输性质研究,国家自然科学基金青年项目(11404007), 30万,2015.01-2017.12, 主持
6. 高斯光束阵列在大气传输中理论及实验研究, 安徽省自然科学基金青年项目(1408085QF112),7万, 2014.07-2016.06, 主持
7. 基于达曼光栅的高阶贝塞尔光束在光通信中的应用,国家重点实验室开放基金(SKLST201608),5万, 2016.12-2018.12, 主持
主要论文成果:
1. Y. Yuan, D. Xu, R. Cheng, Y. Gao, B. J. Hoenders, and Y. Cai, 0–360 Degrees angular measurements using spatial displacement, Appl. Phys. Lett. 122, 111106 (2023).
2. Y. Yuan*, J. Zhang, J. Dang, W. Zheng, G. Zheng, P. Fu, J. Qu, B. J. Hoenders, Y. Zhao and Y. Cai, Enhanced fiber-coupling efficiency via high-order partially coherent flat-topped beams for free-space optical communications, Opt. Express, 30(4), 5634-5643 (2022).
3. C. Zhang, Z. Zhou, H. Xu, Z. Zhou, Y. Han, Y. Yuan* and J. Qu, Evolution properties of twisted Hermite Gaussian Schell-model beams in non-Kolmogorov turbulence, Opt. Express, 30(3), 4071-4083 (2022).
4. H. Zhang, W. Zheng, G. Zheng, P. Fu, J. Qu, B. J Hoenders, Y. Cai, and Y. Yuan*, Simultaneous measurement of orbital angular momentum spectra in a turbulent atmosphere without probe beam compensation, Opt. Express, 29(19), 30666-30674 (2021).
5. Y. Zhao, Z. Yan, P. Fu, L. Zhang, Y. Cai and Y. Yuan*, All-optical wavelength conversion based on dual-polarization SOAs for a 112Gbps PDM-16QAM signal using parallel dual-pump, OSA Continuum, 4(4), 1125-1134 (2021).
6. H. Zhang, W. Ding, P. Fu, X. Liu, Y. Gao, Y. Gao, Y. Cai and Y. Yuan*, Reducing orbital angular momentum crosstalk of the Bessel–Gaussian beam for underwater optical communications, J. Opt., 22, 065702 (2020).
7. Y. Yuan, X. Liu, J. Qu, M. Yao, Y. Gao, Y. Cai, Second-order statistical properties of a J0-correlated Schell-model beam in a turbulent atmosphere, J. Quant. Spectrosc. Ra., 224, 185–191 (2019).
8. Y. Yuan, D. Liu, Z. Zhou, H. Xu, and J. Qu, Y. Cai, Optimization of the probability of orbital angular momentum for Laguerre-Gaussian beam in Kolmogorov and Non-Kolmogorov turbulence, Opt. Express, 26(17), 21861-21871 (2018).
9. Y. Huang, Y. Yuan*, X. Liu, J. Zeng, F. Wang, J. Yu, L. Liu and Y. Cai, Propagation of Optical Coherence Vortex Lattices in Turbulent Atmosphere, Appl. Sci., 8, 2476 (2018).
10. Y. Yuan, T. Lei, Z. Li, Y. Li, S. Gao, Z. Xie, X.Yuan, Beam wander relieved orbital angular momentum communication in turbulent atmosphere using Bessel beams, Sci. Rep., 7, 42276 (2017).
11. Y. Yuan, T. Lei, S. Gao, X. Weng, L. Du, X. Yuan, The Orbital Angular Momentum Spreading for Cylindrical Vector Beams in Turbulent Atmosphere, IEEE Photon. J., 9(2), 6100610 (2017).
12. Y. Yuan, T. Lei, S. Gao, X. Yuan, Parallel Detection of OAM States Carried by Coaxial Bessel Beams, IEEE Photon. Technol. Lett., 28(3), 315-318 (2016).
13. Y. Zhou, Y. Yuan, J. Qu, and W. Huang, Propagation properties of Laguerre-Gaussian correlated Schell-model beam in non-Kolmogorov turbulence, Opt. Express, 24(10), 10682-10693 (2016).
14. Y. Yuan, Y. Chen, C. Liang, Y. Cai, Y. Baykal, Effect of spatial coherence on the scintillation properties of a dark hollow beam in turbulent atmosphere, Appl. Phys. B, 110(4), 519-529 (2013).
15. Y. Yuan, X. Liu, F. Wang, Y. Chen, Y. Cai, J. Qu, H. T. Eyyuboglu, Scintillation index of a multi-Gaussian Schell-model beam in turbulent atmosphere, Opt. Commun., 305, 57-65 (2013).
16. Y. Yuan, S. Du, Y. Dong, F. Wang, C. Zhao, Y. Cai, Nonparaxial propagation properties of a vector partially coherent dark hollow beam, J. Opt. Soc. Am. A, 30(7), 1358-1372 (2013).
17. Y. Yuan, Y. Cai, H. T. Eyyuboglu, Y. Baykal, J. Chen, Propagation factor of partially coherent flat-topped beam array in free space and turbulent atmosphere,Opt. Lasers Eng., 50, 752-759 (2012).
18. Y. Yuan, Y. Cai, Scintillation index of a flat-topped beam array in a weakly turbulent atmosphere, J. Opt. 13(12), 125701 (2011).
19. Y. Yuan, J. Qu, J. Shi, Z. Cui, Propagation of a four-beamlets laser array through an apertured optical system, Opt. Appl., 40 (1), 155-164 (2010).
20. Y. Yuan, Y.Cai, C. Zhao, H. T. Eyyuboglu, Y. Baykal, Propagation factors of laser array beams in turbulent atmosphere, J. Mod. Opt., 57(8), 621-631 (2010).
21. Y. Yuan, Y. Cai, J. Qu, H. T. Eyyuboglu, Y. Baykal, Propagation factors Hermite-Gaussian beams in turbulent atmosphere. Opt. Laser Technol., 42(8), 1344-1348 (2010).
22. Y. Yuan, Y. Cai, J. Qu, H. T. Eyyuboglu, Y. Baykal, Average intensity and spreading of an elegant Hermite–Gaussian beam in turbulent atmosphere. Opt. Express, 17(13), 11130-11139 (2009).
23. Y. Yuan, Y. Cai, J. Qu, H. T. Eyyuboglu, Y. Baykal, O. Korotkova, M2-factor of coherent and partially coherent dark hollow beams propagating in turbulent atmosphere. Opt. Express, 17(20), 17344-17356 (2009).