Abstract

We propose a method for extending the space bandwidth (SBW) available for recording an object wave in parallel phase-shifting digital holography using a four-channel polarization-imaging camera. A linear spatial carrier of the reference wave is introduced to an optical setup of parallel four-step phase-shifting interferometry using a commercially available polarization-imaging camera that has four polarization-detection channels. Then a hologram required for parallel two-step phase shifting, which is a technique capable of recording the widest SBW in parallel phase shifting, can be obtained. The effectiveness of the proposed method was numerically and experimentally verified.

© 2013 Optical Society of America

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2013 (2)

M. Imbe and T. Nomura, Appl. Opt. 52, A161 (2013).
[CrossRef]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, O. Matoba, and T. Kubota, Appl. Phys. Express 6, 022502 (2013).
[CrossRef]

2012 (1)

2011 (2)

2010 (2)

2009 (2)

2008 (1)

2007 (1)

2005 (1)

2004 (1)

Y. Awatsuji, M. Sasada, and T. Kubota, Appl. Phys. Lett. 85, 1069 (2004).
[CrossRef]

2002 (1)

T. M. Kreis, Opt. Eng. 41, 771 (2002).
[CrossRef]

2001 (2)

2000 (1)

S. Murata and N. Yasuda, Opt. Laser Technol. 32, 567 (2000).
[CrossRef]

1997 (1)

1982 (1)

1972 (1)

1967 (1)

J. W. Goodman and R. W. Lawrence, Appl. Phys. Lett. 11, 77 (1967).
[CrossRef]

Andrés, P.

Araiza-Esquivel, M.

Araki, T.

Awatsuji, Y.

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, O. Matoba, and T. Kubota, Appl. Phys. Express 6, 022502 (2013).
[CrossRef]

L. Miao, K. Nitta, O. Matoba, and Y. Awatsuji, Appl. Opt. 51, 2633 (2012).
[CrossRef]

P. Xia, Y. Shimozato, Y. Ito, T. Tahara, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Appl. Opt. 50, H177 (2011).
[CrossRef]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Opt. Express 18, 18975 (2010).
[CrossRef]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Opt. Rev. 17, 519 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Appl. Opt. 47, D183 (2008).
[CrossRef]

Y. Awatsuji, M. Sasada, and T. Kubota, Appl. Phys. Lett. 85, 1069 (2004).
[CrossRef]

M. Sasada, A. Fujii, Y. Awatsuji, and T. Kubota, in Technical Digest of the 2004 ICO International Conference: Optics and Photonics in Technology Frontier (International Commission for Optics, 2004), pp. 357–358.

Climent, V.

Depeursinge, C.

Fujii, A.

M. Sasada, A. Fujii, Y. Awatsuji, and T. Kubota, in Technical Digest of the 2004 ICO International Conference: Optics and Photonics in Technology Frontier (International Commission for Optics, 2004), pp. 357–358.

Fujii, M.

Gao, P.

Goodman, J. W.

J. W. Goodman and R. W. Lawrence, Appl. Phys. Lett. 11, 77 (1967).
[CrossRef]

Guo, R.

Harder, I.

Ichioka, Y.

Imbe, M.

Ina, H.

Inuiya, M.

Ito, K.

Ito, Y.

Javidi, B.

Kakue, T.

Kaneko, A.

Kawakami, S.

Kim, M.

Kobayashi, S.

Koyama, T.

Kreis, T. M.

T. M. Kreis, Opt. Eng. 41, 771 (2002).
[CrossRef]

Kubota, T.

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, O. Matoba, and T. Kubota, Appl. Phys. Express 6, 022502 (2013).
[CrossRef]

P. Xia, Y. Shimozato, Y. Ito, T. Tahara, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Appl. Opt. 50, H177 (2011).
[CrossRef]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Opt. Express 18, 18975 (2010).
[CrossRef]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Opt. Rev. 17, 519 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Appl. Opt. 47, D183 (2008).
[CrossRef]

Y. Awatsuji, M. Sasada, and T. Kubota, Appl. Phys. Lett. 85, 1069 (2004).
[CrossRef]

M. Sasada, A. Fujii, Y. Awatsuji, and T. Kubota, in Technical Digest of the 2004 ICO International Conference: Optics and Photonics in Technology Frontier (International Commission for Optics, 2004), pp. 357–358.

Kühn, J.

Lancis, J.

Lawrence, R. W.

J. W. Goodman and R. W. Lawrence, Appl. Phys. Lett. 11, 77 (1967).
[CrossRef]

Lo, C.-M.

Mann, C.

Martínez-León, L.

Matoba, O.

Miao, L.

Min, J.

Murata, S.

S. Murata and N. Yasuda, Opt. Laser Technol. 32, 567 (2000).
[CrossRef]

Nishio, K.

Nitta, K.

Nomura, T.

Pavillon, N.

Sasada, M.

Y. Awatsuji, M. Sasada, and T. Kubota, Appl. Phys. Lett. 85, 1069 (2004).
[CrossRef]

M. Sasada, A. Fujii, Y. Awatsuji, and T. Kubota, in Technical Digest of the 2004 ICO International Conference: Optics and Photonics in Technology Frontier (International Commission for Optics, 2004), pp. 357–358.

Sasaki, Y.

Sato, T.

Seelamantula, C. S.

Shimozato, Y.

Tadokoro, T.

Tahara, T.

Tajahuerce, E.

Takeda, M.

Tsuru, T.

Unser, M.

Ura, S.

Xia, P.

Yamaguchi, I.

Yao, B.

Yasuda, N.

S. Murata and N. Yasuda, Opt. Laser Technol. 32, 567 (2000).
[CrossRef]

Ye, T.

Yoshimori, K.

Yu, L.

Zhang, T.

Zheng, J.

Appl. Opt. (8)

Appl. Phys. Express (1)

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, O. Matoba, and T. Kubota, Appl. Phys. Express 6, 022502 (2013).
[CrossRef]

Appl. Phys. Lett. (2)

J. W. Goodman and R. W. Lawrence, Appl. Phys. Lett. 11, 77 (1967).
[CrossRef]

Y. Awatsuji, M. Sasada, and T. Kubota, Appl. Phys. Lett. 85, 1069 (2004).
[CrossRef]

J. Opt. Soc. Am. (1)

J. Opt. Soc. Am. A (2)

Opt. Eng. (1)

T. M. Kreis, Opt. Eng. 41, 771 (2002).
[CrossRef]

Opt. Express (3)

Opt. Laser Technol. (1)

S. Murata and N. Yasuda, Opt. Laser Technol. 32, 567 (2000).
[CrossRef]

Opt. Lett. (1)

Opt. Rev. (1)

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, Opt. Rev. 17, 519 (2010).
[CrossRef]

Other (2)

M. Sasada, A. Fujii, Y. Awatsuji, and T. Kubota, in Technical Digest of the 2004 ICO International Conference: Optics and Photonics in Technology Frontier (International Commission for Optics, 2004), pp. 357–358.

http://www.photonic-lattice.com/ .

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Figures (5)

Fig. 1.
Fig. 1.

Principles of parallel (a) four- and (b) two-step phase shifting. SBWs available for recording an object wave in parallel (c) four- and (d) two-step phase shifting.

Fig. 2.
Fig. 2.

Schematics of the (a) conventional and (b) proposed methods.

Fig. 3.
Fig. 3.

Object and numerical results in the simulation. (a) Reflectance and (b) spatial frequency distributions of the object wave. (c) Reflectance and (d) spatial frequency distributions of the object wave reconstructed by the conventional method. (e) Reflectance and (f) spatial frequency distributions reconstructed by the proposed method.

Fig. 4.
Fig. 4.

Optical setup for this experiment.

Fig. 5.
Fig. 5.

Experimental results. Images reconstructed by the (a) conventional and (b) proposed methods.

Equations (1)

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θ=sin1(λ2d).

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