物理与光电工程学院(半导体光学工程学院)
School of Physics and Optoelectronic Engineering

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联系方式

地 址:广东省佛山市南海区广云路33号
电 话:0757-82981755
邮 编:528000
邮 箱:spoe@fosu.edu.cn

韩定安

编辑:必赢官网手机登录 发布时间:2019-05-03

韩定安

Dingan  Han

博士, 教授

所属学院:

物理与光电工程学院

导师类别:

硕士生导师

科研方向:

光电检测与成像

联系方式:

handingan@163.com

硕士招生学院:

物理与光电工程学院

 

个人简述

(限300字)

韩定安,博士教授硕士生导师。美国话华盛顿大学高级访问学者2005年毕业于华南师范大学,获学博士学位,多年来致力于光电检测与生物医学成像方面的研究。主持国家自然科学基金项目2项,参与国家自然科学基金项目3项,主持广东省创新强校项目1项,参与佛山市工程中心、佛山市眼科成像科研平台佛山市中小企业创新项目和佛山市产学研项目各1项,发表SCI收录论文30篇,授权发明专利1项,实用新型专利8项,获得公开号专利17项。

教育背景

2005年6月  在华南师范大学 光学  获理学博士学位

工作经历

20057月至今 必赢官网技术学院物理与光电工程学院 教授

2016.12016.7  美国华盛顿大学高级访问学者

 

 

主要论文

(*代表通讯作者)

[1] Mingyi Wang, Wenjian Mao, Caizhong Guan, Guanping Feng, Haishu Tan, Dingan Han, Yaguang Zeng,* “Full-field functional optical angiography”, Optics Letters 2017, 32(43): 635. (SCI二区,top

[2] Fuli Zhang,Mingyi Wang, Dingan Han, Haishu Tan, Guojian Yang,  Yaguang Zeng*, “In vivo full-field functional optical hemocytometer”, Journal of Biophotonics 2018, (封面,SCI二区,top

[3] Riwei Liao, Mingyi Wang, Fuli Zhang, Dingan Han, Ruikang K. Wang, Guojian Yang, and Yaguang Zeng*, “Optical projection angiography,” Applied Physics Letters 2016, 109: 193702. SCI二区,top

[4] Yaguang Zeng, Ke Xiong, Xuanlong Lu, Guanping Feng, Dingan Han, “Laser Doppler projection tomography,” Opt. Lett. 2014, 39: 904. (SCI二区,top

[5] Mingyi WangYaguang Zeng(共同一作), Xianjun Liang, Xuanlong Lu, Guanping Fen, Dingan Han, and Guojian Yang, “Full-field optical micro-angiography,” Appl. Phys. Lett. 2014,104: 053704. (SCI二区,top

[6] Guanping Feng, Junbo Chen, Xuanlong Lu, Dingan Han, and Yaguang Zeng*, “Laser speckle projection tomography,” Opt. Lett. 2013, 38: 2654. SCI二区,top

[7] Mingyi Wang, Caizhong Guan, Dingan Han*, Yaguang Zeng*,“Real-time Full-field Optical Angiography utilizing Principal Component Analysis”, Optics Letters (Accepted).

[8] Nanshou Wu, Lei Wang, Bifeng Zhu, Caizhong Guan, Mingyi Wang, Dingan Han, Haishu Tan, and Yaguang Zeng*, “Wide-field absolute transverse blood flow velocity mapping in vessel centerline”, J. Biomed. Opt.  2018, 23(2): 026008. (SCI 三区)

[9] Mingyi Wang, Yaguang Zeng, Xianjun Liang, Guanping Feng, Xuanlong Lu, Junbo Chen, Dingan Han, Guojian Yang, “In vivo label-free microangiography by laser speckle imaging with intensity fluctuation modulation,” J. Biomed. Opt. 2013,18(12):126001. SCI三区)

[10] Yaguang Zeng, Han dingan*, “Exhibition of subluminal solitons in a four-level atomic system with two-folded levels,” J. Mod. Opt. 2008, 55(8): 1353. (SCI四区)

[11] Yaguang Zeng, Dingan Han*, et.al, “Gain-assisted sub- and super-luminal in a ladder atomic system”, Phys. Lett. A 2009, 373: 3591. SCI三区

[12] Yaguang Zeng and Dingan Han*“Exhibition of Subluminal Solitons in a Λ -type Atomic System”, J. Mod. Opt. 2008551353. (SCI四区) 

[13] Dingan Han, Yaguang Zeng*, “Phase controlled gain-assisted slow light propagation in three-coupled quantum wells”, Phys. Letts. A 2011, 375: 437. (SCI三区

[14] Dingan Han, Yaguang Zeng, “Sub- and super-luminal phenomena in a doubly driven four-level system”, Commun.Theor. Phys. 2011, 55:  671. (SCI四区

[15] Dingan Han, Yaguang Zeng, Optical knobs from slow- to fast-light with gain in low-dimensinal semiconductor heterostructures, Opt. Commu. 284 (2011) 4541. (SCI三区)

[16] D. Han, Yaguang Zeng, et. al, “Sub- and superluminance with gain in a three-level ladder-type atomic system with 8spontaneously generated coherence”, Journal of Modern Optics 56 (2009)2357. SCI四区

[17] D. Han, Yaguang Zeng, “Optical solitons in a four-level inverted-Y system”, Appl. Phys. B 91(2008) 359.SCI三区

[18] Han Ding-an, Zeng Ya-guang, “Subluminal and Superluminal phenomena in a Four-Level Atom”, Commun.Theor. Phys. 50 (2008) 197. SCI四区

[19] Dingan Han, Yaguang Zeng, et al., “Knob of the group velocity by the external field coupling”, Journal of Modern Optics 200855135. SCI四区

[20] Dingan Han, Yaguang Zeng, et al., “Upper level and phase controlling group velocity in V-type system”, Phys. Lett. A  2008372: 1717. SCI三区

[21] Dingan Han, Yaguang Zeng, et al., “Controlling the group velocity in a five-level K-type atomic system”, Opt. Commu. 2008, 281: 4712. SCI三区

[22] D.G. Han, Y.G. Zeng, H. Guo, W. Chen, H. Lu, and C. Huang, “Effects of the upper level coupling field on lasing without inversion in a V-type system”, Eur. Phys. J. D 2007, 42: 489. SCI三区

[23] DINGAN HAN, YAGUANG ZENG, YANFENG BAI, WEICHENG CHEN and HONG LU, “Phase effects on group velocity propagation in a V-type system with spontaneously generated coherence”, Journal of Modern Optics 2007, 54: 493. SCI四区

[24] Dingan Han, Yaguang Zeng, Weicheng Chen, Hong Lu, and Chunqing Huang, “Superluminal solitons in a Lambda-type atomic system with two-folded levels”, J. Opt. Soc. Am. B. 2007, 24: 2244. SCI三区

[25] HAN Ding-An, GUO Hong, BAI Yan-Feng, SUN Hui, and ZENG Ya-Guang, “SGC Switching Between Subluminal to Superluminal Propagation in V-Type Atom”, Commun. Theor. Phys. 2006, 46: 731. SCI四区

[26] Dingan Han, Yaguang Zeng, Yanfeng Bai and Chunqing Huang, “Superluminal optical solitons in a four-level tripod atomic system”, J. Phys. B 2006, 39 : 3029.SCI三区

[27] Dingan Han, Hong Guo, Yanfeng Bai, Hui Sun, “Subluminal and superluminal propagation of light in an N-type medium”, Physics Letters A 2005, 334: 243. SCI三区

[28] Han Ding-an, Zeng Ya-guang, Bai Yan-feng,Slow light propagation without absorption based on intersubband transitions in a semiconductor quantum well”,OPTOELECTRONICS LETTERS 2012, 8: 175. EI

[29] Dingan Han, Yaguang Zeng, Yanfeng Bai,Slow light propagation via quantum coherence in a semiconductor quantum well”,Optik 2013, 124 : 1641. (SCI四区

[30] Yanfeng Bai, Hong Guo, Hui Sun, Dingan Han, Cheng Liu, and Xuzong Chen, “Effects of spontaneously generated coherence on the conditions for exhibiting lasing without inversion in a V system”, Physical Review A 2004, 69: 043814.

[31] Hui Sun, Hong Guo, Shuangli Fan, Yanfeng Bai, Dingan Han, “Amplification without population inversion in a three-level Λ-type system with an external coherent magnetic field”, Physics Letters A 2005, 335: 76.

知识产权

1)一种眼底光学全场微血管造影成像装置及方法,申请号:CN201610017830.4(已授权)

2)杆的弯曲度测量装置,申请号:CN201621153331.X(已授权)

3)一种基于面阵LED的眼底血流血氧饱和度检测装置,申请号:CN201621276300.3(已授权)

4)一种基于片层光的血流三维成像装置,申请号:CN201621192297.7(已授权)

5)一种基于双波长激光的血氧饱和度检测装置,申请号:CN201621282502.9(已授权)

6)一种脉搏及血红细胞浓度监测仪,申请号:CN201621361977.7(已授权)

7)一种翡翠三维成像检测装置,申请号:CN201720786989.2(已授权)

8)基于血红细胞浓度测量的烧伤程度与面积检测系统,申请号:CN201621417871.4(已授权)

9)基于低相干光干涉的非接触眼压检测系统及其检测方法,申请号:CN201710231446.9(已授权)

10)基于血红细胞浓度测量的烧伤程度与面积检测系统及方法,申请号:CN201611199894.7

11)小动物实验固定系统,申请号:CN201710488013.1

12)一种测量视窗防护屏平整度的测量方法,申请号:CN201610512454.6

13)一种基于时空调制的血流速度测量装置及方法,申请号:CN201611033407.X

14)一种可显化皮肤病区的自动定位光学治疗仪器及控制方法,申请号:CN201710513140.2

15)一种用于近透明矿物质的大深度OCT扫描装置及方法,申请号:CN201610010041.8

16)杆的弯曲度测量装置及测量方法,申请号:CN201610928251.5

17)一种白癜风治疗系统及其实现方法,申请号:CN201710946113.4

18)一种多焦点频域OCT自适应调焦装置及其方法,申请号:CN201711001858.X

19)一种翡翠三维成像检测装置及其检测方法,申请号:CN201710513154.4

20)一种基于成分分析的散斑血流成像方法和装置,申请号:CN201710916663.1

21)一种基于面阵LED的眼底血流血氧饱和度检测装置及方法,申请号:CN201611055559.X

22)一种基于片层光的血流三维成像装置及方法,申请号:CN201610967417.4

23)一种基于双波长激光的血氧饱和度检测装置及方法,申请号:CN201611075078.5

24)一种脉搏及血红细胞浓度监测仪及方法,申请号:CN201611143660.0

25)一种三维打印机及其实现方法,申请号:CN201710827619.3

26)一种血管血流投影层析三维成像系统及成像方法,申请公开号:CN201710748780.1

 

科研项目

12010年国家自然科学基金项目“基于半导体量子阱材料的新型慢光存储理论研究”,21, 结题、主持

22006年国家自然科学基金项目 “共振介质中无反转激光和群速度特性研究”2, 结题、主持

32016年广东省高等学校“创新强校项目光学微血管造影成像以及应用研究”,4万,在研、主持

 

 

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