A visible light coherent diffraction imaging method using priori information

doi:10.7523/j.issn.2095-6134.2014.06.003

›› 2014, Vol. 31 ›› Issue (6): 739-744.DOI: 10.7523/j.issn.2095-6134.2014.06.003

Previous Articles Next Articles

A visible light coherent diffraction imaging method using priori information

GAO Qiankun¹, SHI Yishi^1,2, WANG Yali¹, LI Tuo¹, LEI Chen³, QIAO Liang¹

1. University of Chinese Academy of Sciences, Beijing 100049, China;
2. State Key Laboratory of Information Security, Institute of Information Engineering, Chinese Academy of Sciences, Beijing 100093, China;
3. Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Sciences, Urumchi 830011, China

Received:2013-12-16 Revised:2014-04-22 Online:2014-11-15

Abstract

Abstract:

We propose a visible light coherent diffraction imaging method. The method employs a known standard object as a priori information in the object plane. Illuminating the tested sample and the coalition of the sample and the standard object, respectively, two diffraction patterns can be obtained to reconstruct the complex amplitude of the sample by the proposed iterative algorithm. We show the validity of the method via both numerical simulations and optical experiments. Since only two diffraction patterns are needed to achieve the lensless imaging, our method is simple to implement and has a high application potential.

Key words: complex amplitude imaging, phase retrieval, lensless imaging

CLC Number:

O436.1

GAO Qiankun, SHI Yishi, WANG Yali, LI Tuo, LEI Chen, QIAO Liang. A visible light coherent diffraction imaging method using priori information[J]. , 2014, 31(6): 739-744.

References

[1] Williams G J, Quiney H M, Dhal B B, et al. Fresnel coherent diffractive imaging [J]. Phys Rev Lett, 2006, 97: 025 506.

[2] Miao J W, Charalambous P, Kirz J, et al. Extending the methodology of X-ray crystallography to allow imaging of micrometre-sized non-crystalline specimens [J]. Nature,1999, 400(6742): 342-344.

[3] Gabor D. A new microscopic principle [J]. Nature,1948, 161: 777-778.

[4] Goodman J W, Lawrence R W. Digital image formation from electronically detected holograms [J]. Appl Phys Lett, 1967, 11(3): 77-79.

[5] Repetto L, Piano E, Pontiggia C. Lensless digital holographic microscope with light-emitting diode illumination [J]. Opt Lett, 2004, 29(10): 1 132-1 134.

[6] Sucerquia J. Color lensless digital holographic microscopy with micromether resolution [J]. Opt Lett, 2012, 37(10): 1 724-1 726.

[7] Latychevskaia T, Longchamp N, Fink W. When holography meets coherent diffraction imaging [J]. Opt Express, 2012, 20(27): 28 871-28 892.

[8] Chapman H N, Nugent K A. Coherent lensless X-ray imaging [J]. Nature Photonics, 2010, 4: 833-839.

[9] Lin C D, Xu J L. Imaging ultrafast dynamics of molecules with laser-induced electron diffraction [J]. Phys Chem Chem Phys, 2012, 14: 13 133-13 145.

[10] Rodenburg J M, Hurst A C, Cullis A G et al. Hard-X-Ray lensless imaging of extended objects [J]. Phys Rev Lett, 2007, 98: 034 801.

[11] Shi Y S, Wang Y L, Zhang S G. Generalized ptychography with diverse probes [J]. Chin Phys Lett, 2013, 30(5): 054 203.

[12] Wang Y L, Shi Y S, Li T, et al. Research on the key parameters of illuminating beam for imaging via ptychography in visible light band[J]. Acta Physica Sinaca, 2013, 62(6):064 206(in Chinese). 王雅丽,史祎诗,李拓,等. 可见光域叠层成像中照明光束的关键参量研究[J].物理学报, 2013,62(6):064 206.

A visible light coherent diffraction imaging method using priori information

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 1

Recommended Articles

Metrics

Comments