基本信息
杨程亮  男  博导  中国科学院长春光学精密机械与物理研究所
电子邮件: chengliangyang@ciomp.ac.cn
通信地址: 吉林省长春市东南湖大路3888号
邮政编码: 130033

研究领域

(1) 磁场探测技术,包括地面、航空以及航天的区域磁场探测,着重研究磁传感器的工程化技术;

(2) 自适应光学技术,包括用于大口径望远镜以及激光通讯等领域的自适应光学系统,系统光学设计,加工,装调以及系统集成等;

(3) 计算光学技术,包括位相差异法(PD)波前探测及图像重建,计算光学成像及光场技术等;

(4) 超材料技术,包括负折射率材料,表面等离子增强材料,制备、表征及应用推广等。

教育背景

2006-09--2011-06   南开大学   理学博士
2002-09--2006-06   南开大学   理学学士

科研活动

   
科研项目

序号                             项目名称                     项目性质及来源       起止时间                角色 

1-航空XXXX工程化技术                                      科技委               2019-2020             负责人

2-具有相位差重建的XX技术                             光机所人才项目     2019-2021             负责人

3-航空XXXX工程化技术                                      科技委               2018-2019             负责人

4-XXXX专用液晶偏振控制技术                            科技委               2017-2018             负责人

5-液晶自适应高分辨率成像系统                      自然基金面上项目   2018-2021             负责人

6-XX望远镜项目                                                   总参项目          2013-2015            技术骨干 

7-液晶自适应光学XX技术                                      863计划          2011-2016            技术骨干 

8-基于反六角溶致液晶负折射材料的研究        自然基金青年基金   2012-2015              负责人 

9-液晶自适应高分辨率成像技术              国家重点实验室自主基金 2015-2016             负责人

10-液晶自适应光学快速过压驱动方法             自然基金面上项目   2015-2018            技术骨干 

11-液晶/聚合物光栅分布反馈激光器研究        自然基金面上项目   2014-2017            技术骨干 

12-中科院青年创新促进会项目                            中国科学院        2017-2020              负责人

指导学生

已指导学生

张作省  硕士研究生  085202-光学工程  

徐梓浩  博士研究生  080300-光学工程  

蔡志鹏  硕士研究生  070207-光学  

张颖  博士研究生  070207-光学  

陈琎  硕士研究生  070207-光学  

现指导学生

李浩  博士研究生  080300-光学工程  

罗芳琳  硕士研究生  080300-光学工程  

李世骁  博士研究生  080300-光学工程  

于洋  博士研究生  080300-光学工程  

阚丽娜  硕士研究生  085400-电子信息  

辅助指导学生

1. 李晓平     博士   2008-2013 

2. 贾丹         博士   2009-2014 

3. 向祥军     博士   2011-2016 



代表性论文

[1]Ying Zhang, Chengliang Yang*, Bin Xue, Zenghui Peng, Zhaoliang Cao, Quanquan Mu, Li Xuan, Highly effective and chemically stable surface enhanced Raman scattering substrates with flower-like 3D Ag-Au heter-onanostructures. Scientific Reports, Vol. 8, 898, 2018.

[2]Ying Zhang, Chengliang Yang*, Guiyang Zhang, Zenghui Peng, Lishuang Yao, Qidong Wang, Zhaoliang Cao, Quanquan Mu, Li Xuan, Distance dependent metal enhanced fluorescence by flowerlike silver nanostructures fabricated in liquid crystalline phase, Optical Materials, Vol. 72, 289-294, 2017.

[3]Peiguang Zhang, Chengliang Yang*, Zihao, Xu, Zhaoliang Cao, Quanquan Mu, Li Xuan, High accuracy wavefront sensing by phase diversity technique with bisymmetric defocuses diversity phase, Scientific Reports, Vol. 7, 1536, 2017.

[4]Zihao Xu, Chengliang Yang, Peiguang Zhang, Xingyun Zhang, Zhaoliang Cao, Quanquan Mu*, Qiang Sun, Li Xuan, Visible light high resolution imaging system for large aperture telescope by liquid crystal adaptive optics with phase diversity technique, Scientific Reports, Vol. 7, 10034, 2017.

[5]Ying Zhang, Chengliang Yang*, Xiangjun Xiang, Peiguang Zhang, Zenghui Peng, Zhaoliang Cao, Quanquan Mu, Li Xuan, Highly effective surface-enhanced fluorescence substrates with roughened 3D flowerlike silver nanostructures fabricated in liquid crystalline phase. Applied Surface Science, Vol. 401, 297-305, 2017.

[6]HONGLI YU, CHENGLIANG YANG*, ZIHAO XU, PEIGUANG ZHANG, HUANYU XU, ZHAOLIANG CAO, QUANQUAN MU, AND LI XUAN1,  Optics Express, Vol. 24, 22034, 2016.

[7]P. G. ZHANG, C. L. YANG*, Z. H. XU, Z. L. CAO, Q. Q. MU, AND L. XUAN, Hybrid particle swarm global optimization algorithm for phase diversity phase retrieval. Optics Express, Vol. 24, 25704, 2016.

[8]Zhaoliang Cao, Xiangjun Xiang, Chengliang Yang*, Ying Zhang, Zenghui Peng Li Xuan, Analysis of tunable characteristics of liquid-crystalbased hyperbolic metamaterials. Liquid Crystals,Vol. 43, 1753-1759, 2016.

[9]Chengliang Yang, Xiangjun Xiang, Ying Zhang, Zenghui Peng, Zhaoliang Cao, Junlin Wang, Li Xuan*, Large-scale controlled fabrication of highly roughened flower-like silver nanostructures in liquid crystalline phase,Scientific Reports, Vol. 5, 12355, 2015.

[10]Chengliang Yang, Dan JiaZenghui Peng, Yonggang Liu, Zhaoliang Cao,Quanquan Mu, Lifa Hu, Dayu LiLishuang Yao, Xinghai LuLi XuanUltrafast switchable wide angle negative refraction in novel dual-frequency liquid crystal mixture,Liquid Crystals, Vol. 40, 1316-1321, 2013.

[11]Chengliang Yang, Qiang Wu, Jingjun Xu, K. A. Nelson, C. A. Werley, Experimental and theoretical analysis of THz-frequency, direction-dependent, phonon polariton modes in a subwavelength, anisotropic slab waveguide, Optics Express, Vol. 18, 26351-26364, 2010.

[12]Xiangjun Xiang,Chengliang Yang*, Ying Zhang, Zenghui Peng, Zhaoliang Cao, Haifeng Zhao, Peiguang Zhang, and Li Xuan, Experimental realization of hyperbolic dispersion metamaterial for the whole visible spectrum based on liquid crystalline phase soft template,Optics Express, Vol. 23, 2015.

[13]Dan Jia,Chengliang Yang*, Xiaoping Li, Zenghui Peng, Yonggang Liu, Zhaoliang Cao,Quanquan Mu, Lifa Hu, Dayu Li, Lishuang Yao, Xinghai Lu, Xiangjun Xiang, Hongsheng Zhang , Li XuanOptical hyperbolic metamaterials based on nanoparticles doped liquid crystalsLiquid CrystalsVol. 41, 2072132014.

[14]Xiaoping Li,Chengliang Yang, Dan Jia, Zhaoliang Cao, Quanquan Mu, Lifa Hua, Zenghui Peng, Yonggang Liu, Lishuang Yao, XinghaiLu, LiXuan, Wide-spectrum optical hyperbolic metamaterial based on reverse hexagonal lyotropic liquid crystal,Optics Communications, Vol. 298-299, 141–144, 2013.

[15]Xiaoping Li,Chengliang Yang, Dan Jia, Zhaoliang Cao, Quanquan Mua, Lifa Hu, Zenghui Peng, Yonggang Liu, Lishuang Yao, Li Xuan, Isotropic magnetic response of silicon carbide microspheres at mid-infraredwavelength,Optics & Laser Technology, Vol. 54, 284–287, 2013.

[16]Xiaoping Li,Chengliang Yang, Qidong Wang, Dan Jia , Lifa Hu, Zenghui Peng, Li Xuan, Enhanced birefringence for metallic nanoparticle doped liquid crystals,Optics Communications, Vol. 286, 224–227, 2013.

[17]Dan Jia,Chengliang Yang, Zenghui PengXiaoping Li , Yonggang Liu, Lishuang YaoZhaoliang Cao, Quanquan Mu, Lifa Hu, Xinghai LuLi XuanWide-angle switchable negative refraction in high birefringence nematic liquid crystals,Liquid Crystals, Vol.40, 599–604, 2013.

[18]Minghuan Liu, Yonggang Liu, Guiyang Zhang, Lijuan Liu, Zhihui Diao,Chengliang Yang, Zenghui Peng, Lishuang Yao, Ji Ma, Li Xuan*, Improving the conversion efficiency of an organic distributed feedback laser by varying solvents of the laser gain layer,Liquid Crystals, Vol. 43, 417–426, 2016.

[19]Chongchong Wang, Lifa Hu, Huanyu Xu, Yukun Wang, Dayu Li, Shaoxin Wang, QuanQuan Mu,Chengliang Yang, Zhaoliang Cao, Xinghai Lu, and Li Xuan, Wavefront detection method of a single-sensor based adaptive optics system,Optics Express, Vol. 23, 2015.

[20]Chongchong Wang, Lifa Hu, Yukun Wang, Shaoxin Wang, Quanquan Mu, Dayu Li, Zhaoliang Cao,Chengliang Yang, Huanyu Xu, and Li Xuan, Time delay compensation method for tip-tilt control in adaptive optics system,Applied Optics, Vol. 54, 2015.

[21]Zhaoliang Cao, Qing Qu, Yukun Wang, Huanyu Xu, Shaoxin Wang,Chengliang Yang, Li Xuan, Shape based zonal wave-front reconstruction for arbitrary shape pupils,Optics Communications, 336, 2015.

[22]李文杰,穆全全,王少鑫,王海萍,杨程亮,曹召良,宣丽,哈特曼探测器的高精度调节机构,光学精密工程23(10),2015

[23]李文杰,王少鑫,穆全全,杨程亮,曹召良,宣丽,用等效应力法分析温度变化对胶粘反射镜面型的影响,光子学报,Vol. 44,2015

[24]Dayu Li, Lifa Hu, Quanquan Mu, Zhaoliang Cao, Zenghui Peng, Yonggang Liu, Lishuang Yao,Chengliang Yang, Xinghai Lu, Li XuanWavefront processor for liquid crystal adaptive optics system based on Graphics Processing UnitOptics CommunicationsVol. 316, 211216, 2014.

[25]Lijuan Liu, Wenbin Huang, Zhihui Diao, Zenghui Peng , Quan quan Mu, Yonggang Liu ,Chengliang Yang, Lifa Hu and Li XuanLow threshold of distributed feedback lasers based on scaffolding morphologic holographic polymer dispersed liquid crystal gratings: reduced losses through Forster transferLiquid CrystalsVol. 41, 145152, 2014.

[26]Qidong Wang, Zenghui Peng, Lishuang Yao, Yonggang Liu, Lifa Hu, Zhaoliang Cao, Quanquan Mu,Chengliang Yang, Xinghai Lu & Li XuanThe optimal cell gap determination of a liquid crystal wavefront corrector from a single photoelectric measurementLiquid CrystalsVol. 41, 1569–1574, 2014.

[27]H. Li, W.  Yu, J. Xu,C. Yang, Y. Wang and H. BuHierarchical structure formation and pattern replication by capillary force lithographyThe Royal Society of ChemistryVol. 4, 39684–39690, 2014.

[28]Wenbin Huang, Yonggang Liu, Lifa Hu, Quanquan Mu, Zenghui PengChengliang Yang, Li XuanSecond-order distributed feedback polymer laser based on holographic polymer dispersed liquid crystal grating,Organic Electronics, Vol. 14, 22992305, 2013.

[29]Zenghui Peng, Yonggang Liu, Zhaoliang Cao, Quanquan Mu, Lishuang Yao, Lifa Hu,Chengliang Yang, Rina Wu, Li Xuan, Fast response property of low-viscosity difluorooxymethylene-bridged liquid crystalsLiquid Crystals, Vol. 4091-96, 2013.

[30]Wenbin Huang, Zhihui Diao, Yonggang Liu, Zenghui Peng,Chengliang Yang, Ji Ma, Li Xuan*, Distributed feedback polymer laser with an external feedback structure fabricated by holographic polymerization techniqueOrganic Electronics,Vol. 132307-2311,2012.

[31]Wenbin Huang, Yonggang liu, zhihui Diao,Chengliang Yang, Lishuang Yao, JI Ma, Li Xuan*Theory and characteristics of holographic polymer dispersed liquid crystal transmission grating with scaffolding morphologyApplied Optics, Vol. 51,4013-4020, 2012.

[32]Qiang Wu, Shangyu Guo, Yinxing Ma, Feng Gao,Chengliang Yang, Ming Yang, Xuanyi Yu, Xinzheng Zhang, Romano A. Rupp, and Jingjun Xu,Optical refocusing three-dimensional wide-field fluorescence lifetime imaging microscopy,Optics Express, Vol. 20, 960-965, 2012.