Resolution enhancement of optical scanning holography with a spiral modulated point spread function

Ni Chen; Zhenbo Ren; Haiyan Ou; Edmund Y. Lam

doi:10.1364/prj.4.000001

Journals >Photonics Research >Volume 4 >Issue 1 >Page 0001 > Article

Photonics Research
Vol. 4, Issue 1, 0001 (2016)

Resolution enhancement of optical scanning holography with a spiral modulated point spread function

Ni Chen¹, Zhenbo Ren¹, Haiyan Ou², and Edmund Y. Lam^1、*

Author Affiliations

¹Department of Electrical and Electronic Engineering, The University of Hong Kong, Pokfulam, Hong Kong, China

²Institute of Applied Physics, University of Electronic Science and Technology of China, 610054 Chengdu, China

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DOI: 10.1364/prj.4.000001 Cite this Article Set citation alerts

Ni Chen, Zhenbo Ren, Haiyan Ou, Edmund Y. Lam. Resolution enhancement of optical scanning holography with a spiral modulated point spread function[J]. Photonics Research, 2016, 4(1): 0001 Copy Citation Text

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Scheme of the proposed SPP-OSH system. BSn, beam splitters; AOF, acousto-optic frequency shifter; Mn, mirror; pn, pupils; Ln, thin lens; SM, scanning mirror; PD, photodetector.

Fig. 1. Scheme of the proposed SPP-OSH system. BSn, beam splitters; AOF, acousto-optic frequency shifter; Mn, mirror; pn, pupils; Ln, thin lens; SM, scanning mirror; PD, photodetector.

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Fig. 2. (a) Real part, (b) imaginary part, and (c) phase profile of the hologram recorded with the conventional OSH; (d) real part, (e) imaginary part, and (f) phase profile of the hologram recorded with the proposed SPP-OSH.

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Fig. 3. Hologram reconstructions of a pinhole. Intensity profile of the reconstruction using (a) the OSH and (b) SPP-OSH. (c) Plot image across the center of the reconstructed point.

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Fig. 4. Hologram reconstructions of a pinhole. Intensity profile of the reconstruction using (a) the OSH and (b) SPP-OSH. (c) Plot image across the center of the reconstructed point.

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Fig. 5. Resolution chart.

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Fig. 6. Reconstructed images of the resolution chart at the focal plane of the object with (a) OSH and (b) SPP-OSH. Corresponding plot profiles across the horizontal centerlines are given in (c) and (d).

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Fig. 7. Example 1: Resolution chart reconstructions with the OSH in (a) and (c); with the SPP-OSH in (b) and (d).

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Fig. 8. Object with two plane images located at (a) z1 and (b) z2.

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Fig. 9. (a) Real part and (b) imaginary part of the conventional OSH hologram; (c) real part and (d) imaginary part of the proposed SPP-OSH hologram.

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Fig. 10. Reconstructed images while Δz=5.5 mm (first row) and 11 mm (second row), using the OSH method, given in (a), (b), (e), and (f); similar figures using the SPP-OSH method are given in (c), (d), (g), and (h).

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Fig. 11. Comparison of the SPP-OSH and OSH: the correlation between the reconstructed images and the original images in terms of the depth interval of the object planes.

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Fig. 12. Comparison of the SPP-OSH and DW-OSH: the correlation between the reconstructed images and the original images in terms of the depth interval of the object planes.

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Ni Chen, Zhenbo Ren, Haiyan Ou, Edmund Y. Lam. Resolution enhancement of optical scanning holography with a spiral modulated point spread function[J]. Photonics Research, 2016, 4(1): 0001

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