Abstract

We propose single-shot digital holography which is capable of simultaneously capturing both the information of multiple phase-shifted holograms and the distribution of the polarization. In this technique, a single image sensor records both the information required for phase-shifting interferometry and that of the polarization states of objects using an array of polarizers. The essence of the technique is the capability of imaging the distribution of the polarization of three-dimensional objects with a single-shot exposure by using the space-division multiplexing of holograms. The validity of the proposed technique was confirmed by the preliminary experiments.

© 2011 Optical Society of America

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2010

2008

2007

2006

2004

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

2002

2000

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

L. Liu, R. Oldenbourg, J. R. Trimarchi, and D. L. Keefe, Nat. Biotechnol. 18, 223 (2000).
[CrossRef] [PubMed]

1999

D. Beghuin, E. Cuche, P. Dahlgren, C. Depeursinge, G. Delacrétaz, and R. P. Salathé, Electron. Lett. 35, 2053 (1999).
[CrossRef]

E. Cuche, F. Bevilacqua, and C. Depeursinge, Opt. Lett. 24, 291 (1999).
[CrossRef]

1997

1995

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

1983

1967

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

Alfieri, D.

Awatsuji, Y.

Beghuin, D.

T. Colomb, P. Dahlgren, D. Beghuin, E. Cuche, P. Marquet, and C. Depeursinge, Appl. Opt. 41, 27 (2002).
[CrossRef] [PubMed]

D. Beghuin, E. Cuche, P. Dahlgren, C. Depeursinge, G. Delacrétaz, and R. P. Salathé, Electron. Lett. 35, 2053 (1999).
[CrossRef]

Bevilacqua, F.

Colomb, T.

Cuche, E.

Dahlgren, P.

T. Colomb, P. Dahlgren, D. Beghuin, E. Cuche, P. Marquet, and C. Depeursinge, Appl. Opt. 41, 27 (2002).
[CrossRef] [PubMed]

D. Beghuin, E. Cuche, P. Dahlgren, C. Depeursinge, G. Delacrétaz, and R. P. Salathé, Electron. Lett. 35, 2053 (1999).
[CrossRef]

Delacrétaz, G.

D. Beghuin, E. Cuche, P. Dahlgren, C. Depeursinge, G. Delacrétaz, and R. P. Salathé, Electron. Lett. 35, 2053 (1999).
[CrossRef]

Depeursinge, C.

Doh, K.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Ferraro, P.

Finizio, A.

Fujii, M.

Goodman, J. W.

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

Ida, T.

Ito, K.

Javidi, B.

Kakue, T.

Keefe, D. L.

L. Liu, R. Oldenbourg, J. R. Trimarchi, and D. L. Keefe, Nat. Biotechnol. 18, 223 (2000).
[CrossRef] [PubMed]

Kikuta, H.

S. Yoneyama, K. Sakaue, H. Kikuta, and M. Takashi, Meas. Sci. Technol. 17, 3309 (2006).
[CrossRef]

Kubota, T.

Lawrence, R. W.

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

Liu, L.

L. Liu, R. Oldenbourg, J. R. Trimarchi, and D. L. Keefe, Nat. Biotechnol. 18, 223 (2000).
[CrossRef] [PubMed]

Marquet, P.

Matoba, O.

Mertz, L.

Murata, S.

Nicola, S.

Nishio, K.

Nitanai, E.

Nomura, T.

Numata, T.

Oldenbourg, R.

L. Liu, R. Oldenbourg, J. R. Trimarchi, and D. L. Keefe, Nat. Biotechnol. 18, 223 (2000).
[CrossRef] [PubMed]

Petrocellis, L.

Pierattini, G.

Poon, T.-C.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Sakaue, K.

S. Yoneyama, K. Sakaue, H. Kikuta, and M. Takashi, Meas. Sci. Technol. 17, 3309 (2006).
[CrossRef]

Salathé, R. P.

D. Beghuin, E. Cuche, P. Dahlgren, C. Depeursinge, G. Delacrétaz, and R. P. Salathé, Electron. Lett. 35, 2053 (1999).
[CrossRef]

Sasada, M.

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

Schilling, B.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Shimozato, Y.

Shinoda, K.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Suzuki, Y.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Tahara, T.

Takashi, M.

S. Yoneyama, K. Sakaue, H. Kikuta, and M. Takashi, Meas. Sci. Technol. 17, 3309 (2006).
[CrossRef]

Trimarchi, J. R.

L. Liu, R. Oldenbourg, J. R. Trimarchi, and D. L. Keefe, Nat. Biotechnol. 18, 223 (2000).
[CrossRef] [PubMed]

Ura, S.

Wu, M.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Yamaguchi, I.

Yamashita, K.

Yasuda, N.

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

Yokota, M.

Yoneyama, S.

S. Yoneyama, K. Sakaue, H. Kikuta, and M. Takashi, Meas. Sci. Technol. 17, 3309 (2006).
[CrossRef]

Zhang, T.

Appl. Opt.

Appl. Phys. Lett.

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

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

Electron. Lett.

D. Beghuin, E. Cuche, P. Dahlgren, C. Depeursinge, G. Delacrétaz, and R. P. Salathé, Electron. Lett. 35, 2053 (1999).
[CrossRef]

Meas. Sci. Technol.

S. Yoneyama, K. Sakaue, H. Kikuta, and M. Takashi, Meas. Sci. Technol. 17, 3309 (2006).
[CrossRef]

Nat. Biotechnol.

L. Liu, R. Oldenbourg, J. R. Trimarchi, and D. L. Keefe, Nat. Biotechnol. 18, 223 (2000).
[CrossRef] [PubMed]

Opt. Eng.

T.-C. Poon, K. Doh, B. Schilling, M. Wu, K. Shinoda, and Y. Suzuki, Opt. Eng. 34, 1338 (1995).
[CrossRef]

Opt. Express

Opt. Laser Technol.

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

Opt. Lett.

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Figures (6)

Fig. 1
Fig. 1

Basic concept of the proposed digital holography.

Fig. 2
Fig. 2

Example of the optical setup for the proposed technique. (a) Optical setup, (b) configurations of the phase-shifting array device, the micropolarizer array, and the obtained hologram.

Fig. 3
Fig. 3

Image-reconstruction algorithm.

Fig. 4
Fig. 4

Photograph of the macroscopic object used in the preliminary experiment.

Fig. 5
Fig. 5

Experimental results for the macroscopic objects. (a)–(d) and (e)–(h) are the images focused on a nut and a plastic model, respectively. (a) and (e), (b) and (f), (c) and (g), and (d) and (h) are the S0, S1, S2, and S3 images, respectively. S0, S1, S2, and S3 are the four quantities of the Stokes parameters. The scale of the white bar shown in (a) and (e) is 5 mm .

Fig. 6
Fig. 6

Experimental results for the microscopic specimens. (a)–(d) and (e)–(h) are the images focused on a feather of Serinus canaria and a squama of Carassius auratus auratus, respectively. (a) and (e), (b) and (f), (c) and (g), and (d) and (h) are the S0, S1, S2, and S3 images, respectively. The scale of the white bar shown in (a) and (e) is 100 μm .

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