欢迎访问山西大学激光光谱研究所
仝召民
发布时间:2018-05-11 浏览:
仝召民  
副教授  

  2005年和2008年毕业于中北大学电子科学与技术专业,获工学学士和工学硕士学位。2013年毕业于挪威科技大学(NTNU)电子与通信系,获工学博士学位。2013年至2015年在西安交通大学纳米科学与工程技术学院(苏州)工作,任副教授。20161月加入山西大学激光光谱研究所。发表学术论文30余篇,申请发明专利10项(其中2项美国专利,欧洲专利1项)。现主持国家自然科学基金项目1项,江苏省自然科学基金青年基金项目1项,参与国家重点研发计划重点专项课题1项(排名2)。获2012年度国家优秀自费留学生称号。

 

 

 

办公地址: 激光光谱研究所310室

电子邮箱: zhaomin.tong@sxu.edu.cn

办公电话: 0351-7215813

 

研究方向:

      激光荧光显示技术,散斑抑制,MEMS

 

近期代表性的论文:

1. W. Cheng, Z. Tong*, S. Jia, and X. Chen, “Laser speckle reduction using motionless image conduits”, Opt. Rev.., 25 (1), 143-148, 2018.
2. Z. Tong, S. Song, S. Jia, and X. Chen, “Non-sequential speckle reduction method by generating uncorrelated laser sub-beams with equivalent intensity using a reflective spatial light modulator,” IEEE Photonics J., 9 (5), 7000508, 2017.
3. Z. Tong, W. Shen, S. Song, W. Cheng, Z. Cai, Y. Ma, L. Wei, W. Ma, L. Xiao, S. Jia, and X. Chen, “Combination of micro-scanning mirrors and multi-mode fibers for speckle reduction in high lumen laser projector applications,” Opt. Express, 25 (4), 3795-3804, 2017. 
4.  Z. Tong and X. Chen, “A ferroelectric liquid crystal spatial light modulator encoded with orthogonal arrays and its optimized design for laser speckle reduction,” Opt. Laser Eng., 90, 173-178, 2017.
5.  Z. Tong, “Principle and design of a binary phase modulator based on the Electro-Optic effect for speckle reduction in laser displays,” SID Symposium Digest of Technical Papers, 47 (1), 1808-1810, 2016.
6.  Z. Tong and X. Chen, “Principle, design and fabrication of a passive binary micro-mirror array (BMMA) for speckle reduction in Grating Light Valve (GLV) based laser projection display,” Sensor. Actuat. A-Phys., 210, 209-216, 2014.
7.  Z. Tong, X. Chen, M. Akram, and A. Aksnes, “Compound speckle characterization method and reduction by optical design,” J. Disp. Technol., 8 (3), 132-137, 2012.
8.  Z. Tong and X. Chen, “Speckle contrast for superposed speckle patterns created by rotating the orientation of laser polarization,” J. Opt. Soc. Am. A, 29 (10), 2074-2079, 2012.
9.  Z. Tong and X. Chen, “Speckle reduction by angle diversity using a translucent spatial light modulator,” Opt. Appl., 42 (3), 651-658, 2012.
10.  Z. Tong, M. Akram, and X. Chen, “Speckle reduction using orthogonal arrays in laser projectors,” App. Optics, 49 (33), 6425-6429, 2010.
11.  B. Zhang, Z. Tong, C. Xue, and W, Zhang, “Effects of pressure on GaAs/InxGa1-xAs/AlAs resonant tunneling structures,” Sensors and Materials, 21(1), 1-12, 2009.
12.  C. Xue, Z. Tong, B. Zhang, and W. Zhang, “A novel vector hydrophone based on the piezoresistive effect of RTD,” IEEE Sensors Journal, 8(4), 401-402, 2008.
13.  W. Liu, Z. Tong, C. Xue, B. Zhang, M. Li, and W. Zhang, design, “Fabrication and testing of GaAs/AlAs/InGaAs resonant tunneling vector hydrophones,” Sensor Letters, 6(2), 272-279, 2008.
14.  Z. Tong, M. Akram, and X. Chen, “Dynamic interference fringes generated by optical interferometer for laser speckle reduction,” Proc. of SPIE, 8413, Speckle 2012: V International Conference on Speckle Metrology, 84131M, 2012.
15.  Z. Tong and X. Chen, “Laser speckle reduction by using a Binary Micro Mirror Array (BMMA): theory and design,” Optical MEMS and Nanophotonics (OMN), 2011 International Conference on, 195-196, 2011.
16.  Z. Tong and X. Chen, “Speckle reduction by using a translucent spatial light modulator,” 1st EOS Topical Meeting on Micro- and Nano-Optoelectronic Systems 2011, 90-91, 2011.
17.  Z. Tong, M. Akram, G. Ouyang, X. Chen, and V. Kartashov, “Laser speckle reduction using MEMS scanning mirror,” SID 2010, 41(1), 1909-1912, 2010.
18.  Z. Tong, G. Ouyang, W. Gao, M. Akram, V. Kartashov, K. Wang, and X. Chen, “Simulation of laser speckle reduction by using an array of diffraction gratings,” Proc. of SPIE, 7387, Speckle 2010: Optical Metrology, 73871S, 2010.
19.  Z. Tong, C. Xue, B. Zhang, J. Liu, and H. Qiao, “The study of RTD’s relaxation oscillation characteristics with applied pressure,” Chinese Journal of Semiconductors, 29(1), 39-44, 2008.
20.  仝召民,薛晨阳,张斌珍,王勇,张文栋,张雄文,基于SiCl4/SF6的GaAs/AlAs ICP选择性干法刻蚀,半导体学报,第29卷,第6期,1194-1197,2008.
21.  Z. Tong, C. Xue, Y. Lin, and S. Chen, “Mechanic-electric coupling characteristics of a resonant tunneling diode,” Chinese Journal of Semiconductors, 29(10), 1907-1912, 2008.
22. 张文栋, 熊继军, 薛晨阳, 张斌珍, 仝召民, 介观压阻效应及器件研究, 机械工程学报,第44卷,第11期,22-33,2008.
23.  仝召民,薛晨阳,张斌珍,王勇,基于GaAs/AlAs腐蚀自停止的新型水听器工艺研究,纳米技术与精密工程,第5卷,第3期,230-234,2007.
24.  Z. Tong, C. Xue, B. Zhang, and J. Wang, an acoustic sensor with the resonant tunneling effects of GaAs/AlAs/InGaAs hetero structures, IEEE ICMA 2007, 3807-3811, 2007.
25.  Z. Tong, C. Xue, B. Zhang, J. Wang, and W. Zhang, an acoustic sensor based on the piezoresistive effect of RTS, ISTM 2007, 5044-5047, 2007.
26.  W. Gao, Z. Tong, V. Kartashov, M. N. Akram, and X. Chen, “Replacing two dimensional binary phase matrix by a pair of one dimensional dynamic phase matrices for laser speckle reduction,” J. Disp. Technol., 8 (5), 291-295, 2012.
27.  M. Akram, Z. Tong, G. Ouyang, X. Chen, and V. Kartashov, “Laser speckle reduction due to spatial and angular diversity introduced by fast scanning micromirror,” App. Optics, 49 (17), 3297-3304, 2010.
28.  G. Ouyang, Z. Tong, M. N. Akram, K. Wang, V. Kartashov, X. Yan, and X. Chen, “Speckle reduction using a motionless diffractive optical element,” Opt. Lett., 35 (17), 2852-2854, 2010.
29.  M. Akram, V. Kartashov, and Z. Tong, “Speckle reduction in line-scan laser projectors using binary phase codes,” Opt. Lett., 35 (3), 444-446, 2010.
30.  Ouyang, G., Akram. M. N., Wang, K., Tong, Z. and Chen, X. (2013): Laser speckle reduction based on angular diversity induced by piezoelectric benders. In: J. Europ. Opt. Soc. Rap. Public., 8, 13025, 2013.
31.  S. Egge, K. Welde, U. Oesterberg, A. Aksnes, M. Akram, V. Kartashov, and Z. Tong, “Sinusoidal rotating grating for speckle reduction in laser projectors: feasibility study,” Opt. Eng., 50 (8), 083202, 2011.

专 利:

1. 仝召民,程文治,陈旭远,肖连团,贾锁堂,光纤型光束分布式相位延迟器及其散斑消除方法,国家发明专利,CN 106610529 A
2. 仝召民,程文治,陈旭远,肖连团,贾锁堂,空间堆叠型光束分布式相位延迟器及其散斑消除方法,国家发明专利,CN 106646716 A
3. 仝召民,陈旭远,贾锁堂,光束调控光纤消散斑方法及装置,国家发明专利,CN 106353890 A
4. 仝召民,陈旭远,贾锁堂,一种MOEMS激光扫描微镜阵列散斑抑制装置,国家发明专利,CN 106353891 A
5. Z. Tong, W. Gao, X. Chen, M. Akram, G. Ouyang, and K. Wang, Speckle reduction, US 9235060
6. Z. Tong, W. Gao, X. Chen, M. Akram, G. Ouyang, and K. Wang, Speckle reduction , GB 2480228 A
7. 仝召民,高文宏,陈旭远,穆罕默德?纳迪姆?阿克拉姆,欧阳光敏,王开鹰,斑纹减少装置和斑纹减少掩膜,国家发明专利,CN 102193208 B
8. 仝召民,陈旭远,高文宏,石云波,二维被动式二元相位调制器,国家发明专利,ZL 201210474610.6
9. 仝召民,陈旭远,高文宏,石云波,基于MEMS微镜阵列的二元相位调制器,国家发明专利,ZL 201210512289. 6
10. X. Chen, Z. Tong, and M. Akram, Methods for reducing speckles and a light source used in said method, US 20150070659