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浙江大学光电信息工程学系导师:匡翠方

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浙江大学光电信息工程学系导师:匡翠方正文


  姓名:匡翠方
  性别:男
  所在学院:光电信息工程学系
  职称:副教授

  个人简介
  2010.03 - 至今: 浙江大学 光电系 光电显示技术研究所
  2008.02 - 2010.02: University of South Carolina 机械工程系 博士后
  2007.06 - 2008.01: 北京理工大学 光电系 博士后
  2006.01 - 2006.07: University of Michigan 机械工程系 交流
  2003.09 - 2007.04: 北京交通大学 物理系 博士生

  工作研究领域
  光学超分辨显微技术,光学精密测量

  工作研究项目:

序号
 

项目名称
 

项目来源
 

 

起讫时间
 

1
 
三轴光学准直方法与系统
 
浙江省自然基金
 
 
2011.01-2012.12
2
 
基于微纳结构受激发射损耗超分辨率荧光显微方法
 
重点实验室基金
 
  2010.03-2012.03
 
3
 
基于柱状矢量偏振的受激发射损耗显微技术研究
 
中央高校基本科研业务费专项资金
 
  2010.08-2011.12
 

 
浙江大学紫金计划  
 
浙江大学  
2011.01-2012.12
5
 
 超分辨显微技术研究(项目编号:Y201009976 
 
 浙江省教育厅
 
  2011.01-2012.12 
 

 

钱江人才计划(项目号:2011R10010
 浙江省科技厅
 
  2011.08-2013.07
 
7
 
 基于点扩散函数工程的超分辨荧光显微方法的研究 教育部  

2012.01-2014.12 
 


  发表论文:
  期刊论文
  2012年
  [1] X. Hao, C. Kuang*, Y. Li, X. Liu, Y. Ku, and Y. Jiang, "Hydrophilic microsphere based mesoscopic-lens microscope (MMM)," Optics Communications. (2012)
  [2] X. Hao, C. Kuang*, Y. Li, and X. Liu, "Continuous manipulation of doughnut focal spot in a large scale," Optics. Express 20, 12692-12698 (2012).
  [3] Y. Ku, C. Kuang*, D. Luo, T. Wang, and H. Li, "Differential internal multi-reflection method for nano-displacement measurement," Optics and Lasers in Engineering 50, 1445-1449 (2012).
  [4] D. Luo, C. Kuang*, X. Liu, and G. Wang, "Experimental investigations on fluorescence excitation and depletion of ATTO 390 dye," Optics & Laser Technology. (2012)
  [5] D. Luo, C. Kuang*, X. Hao, and X. Liu, "High-precision laser alignment technique based on spiral phase plate," Optics and Lasers in Engineering 50, 944-949 (2012).
  [6] Z. Gu, C. Kuang*, X. Hao, Y. Xue, Z. Zheng, and X. Liu, "Methods for generating a dark spot using phase and polarization modulation light,"Optik - International Journal for Light and Electron Optics(2012).
  [7] L. Li, C. Kuang*, D. Luo, X. Liu. “Axial Nano-displacement Measurement Based on Astigmatism Effect of Crossed Cylindrical Lenses”, Applied Optics 51:(13) (2012)
  [8] X. Hao, C. Kuang*, Y. Li, and X. Liu, "Manipulation of doughnut focal spot by image inverting interferometry," Opics. Letters.37, 821-823 (2012).
  [9] X. Hao, C. Kuang*, Y. Ku, X. Liu, and Y. Li, "A quadrant detector based laser alignment method with higher sensitivity," Optik- International Journal for Light and Electron Optics (2012).
  [10]T. Wang, C. Kuang*, X. Hao, and X. Liu, "Sharper focal spot below λ/4 of azimuthally polarized illumination phase-encoded by the binary 0/π phase plate," Optik - International Journal for Light and Electron Optics (2012).
  [11]H. Xiang, K. Cuifang*, L. Yanghui, and L. Xu, "A method for extending depth of focus in STED nanolithography," Journal of Optics 14, 045702 (2012).
  [12]郝翔, 匡翠方*, 李旸晖,刘旭, "可逆饱和光转移过程的荧光超分辨显微术," 激光与光电子学进展 49, 30005-30001 (2012).
  [13]D. Luo, C. Kuang*, and X. Liu, "Fiber-based chromatic confocal microscope with Gaussian fitting method," Optics & Laser Technology 44, 788-793 (2012).
  [14]Y. Liu, C. Kuang*, and Y. Ku, "Small angle measurement method based on the total internal multi-reflection," Optics & Laser Technology 44, 1346-1350 (2012).
  [15]C. Kuang*, Y. Liu, X. Hao, D. Luo, and X. Liu, "Creating attoliter detection volume by microsphere photonic nanojet and fluorescence depletion," Optics Communications 285, 402-406 (2012).
  
  2011年
  [16]X. Yi, K. Cuifang*, H. Xiang, G. Zhaotai, and L. Xu, "A method for generating a three-dimensional dark spot using a radially polarized beam," Journal of Optics13, 125704 (2011).
  [17]Y. Liu, C. F. Kuang, and Z. H. Ding*, "Strong confinement of two-photon excitation field by photonic nanojet with radial polarization illumination," Optics Communications284, 4824-4827 (2011).
  [18]C. Kuang, R. Qiao, and G. Wang, "Ultrafast measurement of transient electroosmotic flow in microfluidics," Microfluidics and Nanofluidics 11, 353-358 (2011).
  [19]CF Kuang, X. Hao, and T.-T. Wang, "Laser collimation method based on differential compensating beam drift," Guangdianzi Jiguang/Journal of Optoelectronics Laser (光电子激光)22, 597-599 (2011).
  [20]库玉龙;匡翠方*;王婷婷;李海峰;刘旭, "基于全内反射的光束准直性检测新方法," 光电子激光 22, 3 (2011).
  [21]X. Hao, C. Kuang, X. Liu*, H. Zhang, and Y. Li, "Microsphere based microscope with optical super-resolution capability," Applied Physics Letters99, 203102-203103 (2011).
  [22]郝翔, 匡翠方*,王婷婷,刘旭. 受激发射损耗显微技术中0/π圆形相位板参数优化[J]. 光学学报,
  2011, 31(3): 0318001
  [23]CF Kuang,* Xiang Hao, Xu Liu, Tingting Wang and Yulong Ku “Formation of Sub-Half-Wavelength Focal Spot with Ultra Long Depth of Focus” Optics communications, 284,1766–1769, (2011) .
  [24]Tingting Wang,CF Kuang *,Xiang Hao and Xu Liu . “Subwavelength focusing by a microsphere array” Journal of Optics, 13, 035702, (2011) .
  
  2010年
  [25]Tingting Wang, CF Kuang*, Xiang Hao, and Xu Liu. ”Experimental verification of the far-field subwavelength focusing with multiple concentric nanorings”. Appl. Phys. Lett. 97, 231105, (2010).
  [26]CF Kuang; Guiren Wang. Far-field nanoscopic velocimeter for nanofluidics,Lab-on-a-chip 10, 240. (2010).
  [27]XA. Hao, CF Kuang*, T. T. Wang, and X. Liu, "Phase encoding for sharper focus of the azimuthally polarized beam," Optics Letters , 35, 3928-3930, (2010).
  [28]XA. Hao, CF Kuang*, T. T. Wang, and X. Liu, "Effects of polarization on the de-excitation dark focal spot in STED microscopy," Journal of Optics, 12,115707, (2010).
  [29] CF Kuang, Wei Zhao, and Guiren Wang. “Far-field optical nanoscopy based on continuous wave laser stimulated emission depletion” Review of Scientific Instruments. 81, 053709 , (2010).
  [30]CF. Kuang*, M. Y. Ali, X. A. Hao, T. T. Wang, and X. Liu, "Superresolution confocal technology for displacement measurements based on total internal reflection," Review of Scientific Instruments, 81, 103702. (2010).
  [31]M. Yakut Ali, CF Kuang, Jamil Khan, and Guiren Wang, "A dynamic piezoelectric micropumping phenomenon," Microfluidics and Nanofluidics 9 (2), 385-396,(2010).
  
  2009年以前
  [32]CF Kuang; Zhao, W; Yang, F. and Wang, G.. Study of the Rise Time in Electroosmotic Flow within a Microcapillary, Analytical Chemistry, 81 (16):6590–6595, (2009).
  [33]CF Kuang; Zhao, W; Yang, F. and Wang, G.. Measuring flow velocity distribution in microchannels using molecular tracers,Microfluidics and nanofludiics, 7(4): 509-517, (2009) .
  [34]Feng, Q.; Zhang, B.; Kuang, C., Four degree-of-freedom geometric error measurement system with common-path compensation for laser beam drift. International Journal of Precision Engineering and Manufacturing2008, 9 (4), 26-31.
  [35]Z. Zhang, Q. Feng, Z. Gao, C. Kuang, C. Fei, Z. Li, and J. Ding, "A new laser displacement sensor based on triangulation for gauge real-time measurement," Optics & Laser Technology 40, 252-255 (2008).
  [36]Kuang, C.; Hong, E.; Ni, J., A high-precision five-degree-of-freedom measurement system based on laser collimator and interferometry techniques. Review of Scientific Instruments 2007, 78 (9).
  [37]Kuang, C.; Hong, E.; Feng, Q.; Zhang, B.; Zhang, Z., A novel method to enhance the sensitivity for two-degrees-of-freedom straightness measurement. Measurement Science & Technology 2007, 18 (12), 3795-3800.
  [38]Kuang, C.; Hong, E.; Feng, Q., High-accuracy method for measuring two-dimensional angles of a linear guideway. Optical Engineering 2007, 46 (5).
  [39]Kuang, C. F.; Feng, Q. B.; Zhang, B.; Liu, B.; Chen, S. Q.; Zhang, Z. F., A four-degree-of-freedom laser measurement system (FDMS) using a single-mode fiber-coupled laser module. Sensors and Actuators a-Physical 2005, 125 (1), 100-108.
  [40]Q. B. Feng, B. Zhang, and C. F. Kuang, "A straightness measurement system using a single-mode fiber-coupled laser module," Optics and Laser Technology 36, 279-283 (2004).
  
  会议论文:
  [1] C. Kuang, G. Wang, and Asme, Fast Nanoscopic Velocimetry for Micro/Nanofluidics, Mnhmt2009, Vol 1 (2010), pp. 329-334.
  [2] M. Y. Ali, C. Kuang, J. Khan, G. Wang, and Asme, A Piezoelectric Micropumping Device, Mnhmt2009, Vol 1 (2010), pp. 319-327.
  [3] Ke Liu, Yanqiu Li, Jingfeng Liu and Cuifang Kuang, "Computer aided alignment of 20X Schwarzschild projection optics", Proc. SPIE 7130, 713042 (2008); doi:10.1117/12.819705.
  [4] Kuang, C. F.; Feng, Q. B.; Zhang, B.; Zhang, Z. F.; Chen, S. Q., Measurement method of the roll angle - art. no. 61502F. In 2nd International Symposium on Advanced Optical Manufacturing and Testing Technologies: Optical Test and Measurement Technology and Equipment, Pts 1 and 2, Hou, X. Y. J. W. J. C. H. S., Ed. 2006; Vol. 6150, pp F1502-F1502.
  [5] C. F. Kuang, Q. B. Feng, B. Zhang, Z. F. Zhang, and S. Q. Chen, Simultaneous measuring method of linear guide geometric errors in four-degrees of freedom, ISTM/2005: 6th International Symposium on Test and Measurement, Vols 1-9, Conference Proceedings (2005), pp. 216-218.
  [6] Z. F. Zhang, Q. B. Feng, S. Q. Chen, and C. F. Kuang, Theoretical analysis of the gauge laser sensor and several design parameters, ISTM/2005: 6th International Symposium on Test and Measurement, Vols 1-9, Conference Proceedings (2005), pp. 3502-3504.
  [7] J. Y. Feng, Q. B. Feng, and C. F. Kuang, Status of laser displacement measurement techniques based on triangulation, Istm/2003: 5th International Symposium on Test and Measurement, Vols 1-6, Conference Proceedings (2003), pp. 3658-3661.

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