Based on the optical characteristics of micro-nano particles, the research topic mainly focuses on two directions: one is the ultra-high resolution spectral imaging technology based on the light scattering characteristics of particles, and the other is the photoacoustic liquid velocity detection technology based on the light absorption characteristics of particles. The work in the former direction is based on "Microscopic imaging technology focusing on light absorption and scattering spectrum" (see papers [15] and [6]), which was jointly developed with colleagues from Professor Lev Perelman's group of Harvard Medical School. The work in the latter direction is based on the "photoacoustic Doppler effect" discovered in the same experiment with the colleagues of Professor Wang Leehom of Washington University in St. Louis (see papers [17] and [16]). In view of these two directions, we will actively seek the application of these technologies in imaging optics, micro-nano optics, biomedical optics and so on while in-depth research and development of related technologies.
Scientific research projects, achievements, awards, patents, etc. : scientific research projects:
2012.1-2014.12, Research Start-up Fund for Returned Overseas Students of the Ministry of Education (42 batches [2011]/kloc-0
2011.1-2013.12, National Natural Science Foundation of China (1 1074 134), 37
2010.1-2012.12, the new doctoral teacher fund of the Ministry of Education, 36,000 yuan.
2012.1-2016.12, a key project of the national natural science foundation (6 1 138003), participated in.
20 10.4-20 13.3, Tianjin applied basic and cutting-edge technology research plan (10jcybjc11500).
Reward:
Selected into the Ministry of Education's 20 10 New Century Excellent Talents Support Program (NCET- 10-0502).
Write papers, monographs, teaching materials, etc.
[20] Fang, Wang Liwei, "M-mode photoacoustic particle flow imaging", Optical Communication, Volume 34, Page 67 1-673, 2009. [19] H. Fang, and L. V. Wang, "Photoacoustic Doppler Flow Measurement in Light Scattering Media", Applied Physics Communication, Volume 9 1, Page 264 103 (1-3), 2007. [18] H. Fang, K., L. V. Wang, "Photoacoustic Doppler Effect of Flowing Small Absorbing Particles", Physical Review Letters, vol. 99, pp.184501(1-4), 20. [ 17] H. Fang、L. Qiu、E. vitkin、M. M. Zaman、C. Andersson、S. Salahuddin、L. M. Kimerer、P. B. Cipolloni、M. D. Modell、B. S. Turner、S. E. Keates、 I. Bigio, I. Itzkan, S. D. Freedman, R. Bansil, E. B. Hanlon and L. T. Perelman, "confocal optical absorption and scattering spectrum microscope" [16] H. Fang, M. Ollero, E. Vitkin, L. M. Kimerer, P. B. Cipolloni, M. M. Zaman, S. D. Freedman, I.J. Biggio. E. B. Hanlon and L. T. Perelman, "Noninvasive measurement of subcellular organelles by light scattering spectroscopy", IEEE J. Special topics on quantum electronics, vol. 9, pp. 267-276, 2003. [15] Fang, Luo, Zhao, Fang Zhilin, Mu Guangguo, "Research on New Color Filters for Digital Cameras", Journal of Scientific Instruments, Vol.22, pp.277-282, 200 1. [14] H. Fang, Luo, Z.L. Fang, G.G.Mu, "Detection of dip Chip Pin Position Change Based on harr Wavelet Transform", Journal of China Scientific Instruments, vol. 2/kloc-0, pp. 604-607, 2000. [13] H. Fang, Luo, Z. L. Fang, G. G. Mu, "Experimental Study on New Color Filters for Digital Cameras", Optoelectronic Laser, Vol.1/kloc-0, pp. 579-582, 2000. [12] P. Jia, Y. Yang, C. J. Min, H. Fang, and x-c. Yuan, sidelobe modulated optical vortex for free space communication, optical communication, vol. 38, pp. 588-560, 20 13. [1 1] Shen Zhijun, Hu Zhijun, Yuan Guanghui, Min Zhijun, Fang Haihui, Yuan Xiaochun, Visualization of Orbital Angular Momentum of Plasma Vortex, Optical Communication, Vol.37, pp.4627-4629, 20 12. [10] H. Bai, P. Chen, G. Q. Tang, L. Lin, H. Fang, G. G. Mu, W. Gong, Z. P. Liu, Z. C. Han, H. Zhao, Z.C. Volume 265438, page 1, page122-122 [9] Bai Junjie, Li Junning, Zhang Fang, Zhang Shijie, a porous terahertz fiber with randomly distributed air holes, applied physics B: laser and optics. 20 1 1 .[8] Bai, Chen, Fang, Lin, Tang Guangqing, Mu Guangguo, Gong, Liu Zhiping, Wu, Zhao, Han Zhizhong, Detection of the activity transformation of umbilical cord mesenchymal stem cells by micro-Raman spectroscopy, Laser Physical Communication, vol. 8, pp. 78-84, 20. [7] K. Lim, S. Salahuddin, L. Qiu, H. Fang, E. Vitkin, I. C. Ghiran, M. D. Modell, T. Takooudes, I. Itzkan, E. B. Hanlon, B. P. Sachs and L. "Distinguishing fetal nucleated red blood cells from adult red blood cells by light scattering spectroscopy: it may lead to non-invasive prenatal diagnosis", Optical Communication, vol. 34, pp. 1483- 1485 [6] I. Itzkan, L. Qiu, H. Fang, M. M. Zaman, M. Modell, C. Andersson, L. M. Kimerer, Cipolloni, Kee-Hak Lim, S. D. Freedman, I. Bigio, B. P. Sachs, E. B. Hanlon and L. T. Perelman, "Monitoring in Living Cells by Confocal Light Absorption and Scattering Spectroscopy Microscope. No external mark ",proceedings [5] G. Luo, O. Chutatapei, H. Fang," Experimental study on the unevenness of CCD image line jitter ",vol. 40, pp. 47 16-4720, 200 1. [4] Luo, Fang, Fang Zhilin, Mu Guangguo, "Experimental Study on Digital Image Phase Drift", Journal of Scientific Instruments, Vol.22, pp.65-765438. [3] Luo, Fang Hongguo, Fang Zhilin, Mu Guangguo, "Pin Deviation Detection Method of Integrated Circuit Chip Based on Harr Wavelet Transform", Optical Engineering, Vol.39, pp.1712-16, 2000. [ China Physical Communication, Volume 16, Page 81-813, 1999. [1] Xie Jianping, Fang Haihui, Wang Shaotao, Wu Wenming, Wang Guangming, Wu Yuxiang, Gao Wenwei, Zhang Guangping, Ming, "Exploring the near-field differential mode with sampling theory", Journal of Optics, vol. 65438 +09, pp. 785-790, pp. 1999.
Conference papers: [4] H. Fang, K., and L. V. Wang, "M-mode photoacoustic flow imaging", Proceedings of SPIE Conference (Western Symposium on Photonics: Photons plus Ultrasound: Imaging and Sensing), Volume 7 177, 71772m-(. [3] H. Fang and L. V. Wang, "Photoacoustic Doppler Flowmeter", Proceedings of SPIE (Western Symposium on Photonics: Photon Plus Ultrasound: Imaging and Sensing), Vol. 6856, 6856 1M-( 1-8), 2008. [2] H. Fang, L. Qiu, S. Salahuddin, E. Vitkin, M. D. Modell, E. B. Hanlon, I. Itzkan and L. T. Perelman, "confocal light scattering spectroscopy for monitoring single subcellular organelles", published in Biomedical Symposium. [1] H. Fang, E. Vitkin, M. Ollero, I. Itzkan, E. B. Hanlon and L. T. Perelman, "Light scattering spectroscopy for measuring subcellular organelles", in biomedical symposium, OSA technical abstract (American Optical Society, Washington, DC, 2000) Thesis: [1] Fang Haihui and Wang Liwei, "Photoacoustic Doppler Effect and Flow Sensing", in Photoacoustic Imaging and Spectroscopy, 1st edition. Wang (Taylor & Francis Group, 2009).