Publications

  • Journal Papers
  • Invention Patent
  1. Biying Song, Zhiyuan Ding, Christopher S. Allen, Hidetaka Sawada, Fucai Zhang, Xiaoqing Pan, Jamie Warner, Angus I. Kirkland, and Peng Wang, Hollow Electron Ptychographic Diffractive Imaging, Phys. Rev. Lett. 121, 146101 (2018)

  2. Gao, P. Wang*, F. Zhang*, G. Martinez, P. Nellist, X. Pan, A. Kirkland, “Electron ptychographic microscopy for three-dimensional imaging”, Nature Commun, 8:163 (2017), DOI: 10.1038/s41467-017-00150-1
  3. Wang*, F. Zhang*, S. Gao, H. Sawada, A. Kirkland, “Electron Ptychographic DiffractiveImaging of Boron Atoms in LaB6Crystals”, Scientific Reports, 7:2857 (2017).
  4. Yusuf*, F. Zhang*, B. Chen, A. Bhartiya, K.Cunnea, U. Wagner, F. Cacho-Nerin, J. Schwenke and I. Robinson, “Procedures for cryogenic X-ray ptychographic imaging of biological samples”IUCrJ 4, 147-151 (2017)
  5. Zhang*, B. Chen, M. Graeme, J. V. Comamala, M. Guizar-Sicairos, I. Robinson, “Phase retrieval by Coherent Modulation Imaging”, Nature Commun. 7:13367(2016), DOI: 10.1038/ncomms13367
  6. Robinson, M. Yusuf, J. Schwenke, A. Estandarte, F. Zhang, G. Bhella, N. Parmar, J. Clark, C. Song, D. Nam, G. Ratnasari, K. Kaneyoshi, H. Takata and K. Fukui, “Damage-free imaging of human chromosomes”, submitted to Chromosome Science (2015)
  7. Robinson, J. Schwenke, M. Yusuf, A. Estandarte, F. Zhang, J. Clark, C. Song, D. Nam, Y. Joti, K. Tono, M. Yabashi, G. Ratnasari, K. Kaneyoshi, H. Takata and K. Fukui, “Single Particle Imaging of human chromosomes at SACLA” Journal of Physics B: Atomic, Molecular and Optical Physics 48, 244007 (2015)
  8. Shemilt, E. Verbanis, J. Schwenke, A. K. Estandarte, G. Xiong, R. Harder, N. Parmar, M. Yusuf, F. Zhang, Ian K. Robinson, “Karyotyping Human Chromosomes by Optical and X-Ray Ptychography Methods” Biophysical journal, 108, 706-713 (2015).
  9. Burdet, G. R. Morrison, X. Huang, X. Shi, J. N. Clark, F. Zhang, M. Civita, R. Harder, and I. K. Robinson, “Observations of artefacts in the x-ray ptychography method”, Optics Express 22, 10294-10303 (2014).
  10. Berenguer, R. Bean, L. Bozec, J. Comamala, F. Zhang, C. Kewish, O. Bunk, J. Rodenburg, and I. Robinson “Coherent x-ray imaging of collagen fibril distributions within intact tendons”, Biophysical Journal, 106, 459-466 (2014).
  11. Zhang, I. Peterson, J. Comamala, A. Diaz, F. Berenguer, R. Bean, B. Chen, A. Menzel, I. Robinson, J. Rodenburg “Translation position determination in ptychographic coherent diffraction imaging”, Optics Express, 21, 13592 (2013).
  12. Claus, A. Maiden, F. Zhang, F. Sweeney, M. Humphry, H. Schluesener and J. Rodenburg “Quantitative phase contrast optimised cancerous cell differentiation via ptychography” Optics Express , 20, 9911 (2012)
  13. Bo Chen, F. Zhang, F. Berenguer, R. Bean, C. M. Kewish, J. Vila-Comamala, Y. S. Chu, J. Rodenburg and I. K. Robison, “Coherent x-ray diffraction imaging of paint pigment particles by scanning a phase plate modulator”, New Journal of Physics, 13, 103022 (2011)
  14. Zhao, D. Wang, F. Zhang, Y. Wang, “Hybrid phase retrieval approach for reconstruction of in-line digital holograms without twin image” Opt. Eng. 50, 091310 (2011)
  15. Pedrini, F. Zhang, W. Osten, “Phase retrieval by pinhole scanning”, Opt. Lett. 36, 1113-1115 (2011)
  16. M. Maiden, M.J. Humphry, F. Zhang, J.M. Rodenburg, “Superresolution imaging via ptychography,” JOSA 28, 604-612 (2011)
  17. Angelsky, O., Claus, D., Schluesener, H., Maiden, A., Zhang, F., Sweeney, F., Humphry, M. and Rodenburg, J. ‘Ptychography: a powerful phase retrieval technique for biomedical imaging’. In: Tenth International Conference on Correlation Optics. Chernivtsi, Ukraine: SPIE. p. 83381 (2011)
  18. Claus, D., Maiden, A., Costa, M., Zhang, F., Hurst, A., Edo, T., Sweeney, F., Rodenburg, J., Schluesener, H. and Humphry, M. ‘Ptychography: a novel phase retrieval technique, advantages and its application’. In: Proceedings of SPIE 8001, International Conference on Applications of Optics and Photonics. Braga, Portugal: SPIE. p. 800109 (2011)
  19. Zhang, J.M. Rodenburg, “Wavefront modulation coherence diffraction imaging”, AIP conference proceedings 1365, 223 (2011)
  20. Zhang, J. M. Rodenburg, “Phase retrieval based on wave-front relay and modulation” Phys. Rev. B (Rapid communication) 82, 121104 (2010)
  21. F. Almoro; G. Pedrini; F. Zhang; A. M. S. Maallo; A. Anand; P. N. Gundu; W. Wang; A. Asundi; W. Osten; S. G. Hanson, “Fault-tolerant characterization of phase objects using a speckle-based phase retrieval technique” Internation Journal of Optomechatronics, 4, 397-410 (2010)
  22. Zhao, D. Wang, F. Zhang, Y. Wang, “Hybrid phase retrieval algorithm for solving the twin image problem in in-line digital holography” Proceeding of SPIE 7656(PART1), art no. 76560P (2010).
  23. B. Edo, F. Zhang, J.M. Rodenburg, “Resolution improvement in coherent diffractive imaging (ptychography)” Proceedings of SPIE, 7729, art. No. 77291H (2010).
  24. Kohler, F. Zhang*, and W. Osten, “Characterization of a spatial light modulator and its application in phase retrieval,” Appl. Opt.48, 4003-4008 (2009)
  25. Bao, F. Zhang*, G. Pedrini, and W. Osten, "Phase retrieval using multiple illumination wavelengths," Opt. Lett. 33, 309-311 (2008)
  26. Wang, J. Zhao, F. Zhang, G. Pedrini, and W. Osten, "High-fidelity numerical realization of multiple-step Fresnel propagation for the reconstruction of digital holograms," Appl. Opt. 47, D12-D20 (2008)
  27. Hurst · F. Zhang · J. M. Rodenburg, “An optical demonstration of ptychographical imaging of a single defect in a model crystal”, EMC 14 European Microscopy congress, vol1. P701 (2008).
  28. Bao, F. Zhang, G. Pedrini, W. Osten “Wrap-free phase retrieval using a series of intensity measurements produced by tuning the illumination wavelength” Proc. of SPIE, Vol. 6995, 699510 (2008).
  29. Zhang, G. Pedrini, W. Osten “Phase retrieval of arbitrary complex-valued fields through aperture plane modulation”, Phys. Rev. A. 75, 043805 (2007).
  30. Pedrini, F. Zhang, W. Osten “Deterministic phase retrieval from diffracted intensities speckle fields”, Optics Communications, 277 (1), 50 (2007)
  31. Pedrini, F. Zhang, and W. Osten, "Digital holographic microscopy in the deep (193 nm) ultraviolet," Appl. Opt. 46, 7829-7835 (2007)
  32. Zhang, G. Pedrini, W. Osten “Phase retrieval based on wavefront modulation“ Proc. of SPIE, Vol. 6616, 37 (2007).
  33. Zhang, G. Pedrini, and W. Osten, "Reconstruction algorithm for high-numerical-aperture holograms with diffraction-limited resolution," Opt. Lett. 31, 1633-1635 (2006)
  34. Zhang, G. Pedrini, W. Osten “Image Formation in digital holography” Proc. of  SPIE, Vol. 6188, (2006)
  35. Zhang, G. Pedrini, W. Osten, “Reply to Comment on “Reconstruction algorithm for high-numerical- aperture holograms with diffraction-limited resolution””, Optics Letters, 31, 2848 (2006).
  36. Zhang, G. Pedrini, W. Osten “Aberration free reconstruction algorithm for high numerical aperture digital hologram” Proc. of SPIE, Vol. 6188, (2006)
  37. Zhao, Y. Li, M. Li, J. He, F. Zhang, T. Yoshino, “Wide-range temperature dependence of Brillouin shift in optical fiber”, IEEE international conference on nano/Micro engineered and molecular systems, 2006.
  38. Zhang, I. Yamaguchi and L. Yaroslavsky, “Systematic approach for the design of reconstruction algorithm in digital holography”, Proc. of SPIE, Vol. 5642, 261 (2005)
  39. Yaroslavsky, F. Zhang, I. Yamaguchi, “Point spread functions of digital reconstruction of digitally recorded holograms” Proc. of SPIE Vol. 5642, 271 (2005).
  40. Zhang, I. Yamaguchi “Zoomable reconstruction algorithm for digital holograms“, Optics & Photonics in Technology Frontier, ICO, 413, Chiba, Japan (2004).
  41. Mills, I. Yamaguchi, F. Zhang, “Investigation of quantization effects in phase-shifting digital holography,” Optics & Photonics in Technology Frontier, ICO, 205, Chiba, Japan (2004).
  42. Zhang, I. Yamaguchi, and L. P. Yaroslavsky, "Algorithm for reconstruction of digital holograms with adjustable magnification," Opt. Lett. 29, 1668-1670 (2004)
  43. Zhang, J.D.R. Valera, I. Yamaguchi, M. Yokota, and G. Mills “Vibration Analysis by Phase-shifting Digital Holography,” Optical Review, 11, 297 (2004).
  44. Li, F. Zhang, and T. Yoshino “Wide temperature-range Brillouin and Rayleigh optical-time-domain reflectometry in a dispersion-shifted fiber,” App. Opt., 42, 3772 (2003).
  45. Li, F. Zhang, and T. Yoshino “Wide-range temperature dependence of Brillouin shift in a dispersion-shifted fibre and its annealing effect,” J. Lightwave Technol., 21, 1663 (2003).
  46. Li, F. Zhang, and T. Yoshino, “Wide-range temperature dependence of spontaneous Brillouin intensity in a dispersion-shifted fibre,”Proc. of SPIE, Vol. 4920, 331 (2003).
  47. Li, F. Zhang, and T. Yoshino, “Wide-range temperature dependence of spontaneous Brillouin intensity in a dispersion-shifted fibre,”Proc. of SPIE, Vol. 4920, 331 (2003).

     

 

  1. Fucai Zhang, "Method and apparatus for retrieving a phase of a wavefield", WO2011033287
  2. Fucai Zhang, “Method and Apparatus for Position Determination”, US9618332B2

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