Abstract

Parallel phase-shifting digital holography is capable of three-dimensional measurement of a dynamically moving object with a single-shot recording. In this letter, we demonstrated a parallel phase-shifting digital holography using a single femtosecond light pulse whose central wavelength and temporal duration were 800 nm and 96 fs, respectively. As an object, we set spark discharge in atmospheric pressure air induced by applying a high voltage to between two electrodes. The instantaneous change in phase caused by the spark discharge was clearly reconstructed. The reconstructed phase image shows the change of refractive index of air was −3.7 × 10−4.

© 2012 OSA

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    [CrossRef]
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    [CrossRef]
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    [CrossRef]
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    [CrossRef]
  29. X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
    [CrossRef] [PubMed]
  30. X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
    [CrossRef]
  31. T. Sato, T. Araki, Y. Sasaki, T. Tsuru, T. Tadokoro, and S. Kawakami, “Compact ellipsometer employing a static polarimeter module with arrayed polarizer and wave-plate elements,” Appl. Opt.46(22), 4963–4967 (2007).
    [CrossRef] [PubMed]

2012 (2)

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

2011 (4)

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

2010 (7)

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
[CrossRef] [PubMed]

D. Toptygin, T. B. Woolf, and L. Brand, “Picosecond protein dynamics: the origin of the time-dependent spectral shift in the fluorescence of the single Trp in the protein GB1,” J. Phys. Chem. B114(34), 11323–11337 (2010).
[CrossRef] [PubMed]

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

2009 (1)

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

2008 (1)

2007 (3)

T. Sato, T. Araki, Y. Sasaki, T. Tsuru, T. Tadokoro, and S. Kawakami, “Compact ellipsometer employing a static polarimeter module with arrayed polarizer and wave-plate elements,” Appl. Opt.46(22), 4963–4967 (2007).
[CrossRef] [PubMed]

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

2006 (2)

M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

2005 (1)

M. Helm, J. J. Servant, F. Saurenbach, and R. Berger, “Read-out of micromechanical cantilever sensors by phase shifting interferometry,” Appl. Phys. Lett.87(6), 064101 (2005).
[CrossRef]

2004 (2)

T.-C. Poon, “Recent progress in optical scanning holography,” J. Holograph. Speckle1(1), 6–25 (2004).
[CrossRef]

Y. Awatsuji, M. Sasada, and T. Kubota, “Parallel quasi-phase-shifting digital holography,” Appl. Phys. Lett.85(6), 1069–1071 (2004).
[CrossRef]

2002 (2)

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

T. J. Naughton, Y. Frauel, B. Javidi, and E. Tajahuerce, “Compression of digital holograms for three-dimensional object reconstruction and recognition,” Appl. Opt.41(20), 4124–4132 (2002).
[CrossRef] [PubMed]

2000 (2)

1999 (2)

B. V. Dorrío and J. L. Fernandez, “Phase-evaluation methods in whole-field optical measurement techniques,” Meas. Sci. Technol.10(3), R33–R55 (1999).
[CrossRef]

K. Hibino, “Error-compensating phase measuring algorithms in a Fizeau interferometer,” Opt. Rev.6(6), 529–538 (1999).
[CrossRef]

1967 (1)

J. W. Goodman and R. W. Lawrence, “Digital image formation from electronically detected holograms,” Appl. Phys. Lett.11(3), 77–79 (1967).
[CrossRef]

Alfieri, D.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

Araki, T.

Awatsuji, Y.

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel two-step phase-shifting digital holography,” Appl. Opt.47(19), D183–D189 (2008).
[CrossRef] [PubMed]

Y. Awatsuji, M. Sasada, and T. Kubota, “Parallel quasi-phase-shifting digital holography,” Appl. Phys. Lett.85(6), 1069–1071 (2004).
[CrossRef]

Berger, R.

M. Helm, J. J. Servant, F. Saurenbach, and R. Berger, “Read-out of micromechanical cantilever sensors by phase shifting interferometry,” Appl. Phys. Lett.87(6), 064101 (2005).
[CrossRef]

Brand, L.

D. Toptygin, T. B. Woolf, and L. Brand, “Picosecond protein dynamics: the origin of the time-dependent spectral shift in the fluorescence of the single Trp in the protein GB1,” J. Phys. Chem. B114(34), 11323–11337 (2010).
[CrossRef] [PubMed]

Cai, L. Z.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Cha^teauneuf, M.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Chen, P.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

Chen, Y.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Chin, S. L.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

de Angelis, M.

M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

De Nicola, S.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

De Petrocellis, L.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

Ding, L.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

Dong, G. Y.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Dorrío, B. V.

B. V. Dorrío and J. L. Fernandez, “Phase-evaluation methods in whole-field optical measurement techniques,” Meas. Sci. Technol.10(3), R33–R55 (1999).
[CrossRef]

Dubois, J.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Fernandez, J. L.

B. V. Dorrío and J. L. Fernandez, “Phase-evaluation methods in whole-field optical measurement techniques,” Meas. Sci. Technol.10(3), R33–R55 (1999).
[CrossRef]

Ferraro, P.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

Finizio, A.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

Frauel, Y.

Fujii, M.

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

Goodman, J. W.

J. W. Goodman and R. W. Lawrence, “Digital image formation from electronically detected holograms,” Appl. Phys. Lett.11(3), 77–79 (1967).
[CrossRef]

Grilli, S.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

Hashida, M.

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

Heisler, I. A.

M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
[CrossRef] [PubMed]

Helm, M.

M. Helm, J. J. Servant, F. Saurenbach, and R. Berger, “Read-out of micromechanical cantilever sensors by phase shifting interferometry,” Appl. Phys. Lett.87(6), 064101 (2005).
[CrossRef]

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K. Hibino, “Error-compensating phase measuring algorithms in a Fizeau interferometer,” Opt. Rev.6(6), 529–538 (1999).
[CrossRef]

Inoue, S.

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

Ito, K.

Itoh, K.

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Javidi, B.

Jiang, Y.

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Kakue, T.

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

Kaneko, A.

Kawakami, S.

Kitamura, Y.

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

Kondo, M.

M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
[CrossRef] [PubMed]

Koyama, T.

Kubota, T.

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel two-step phase-shifting digital holography,” Appl. Opt.47(19), D183–D189 (2008).
[CrossRef] [PubMed]

Y. Awatsuji, M. Sasada, and T. Kubota, “Parallel quasi-phase-shifting digital holography,” Appl. Phys. Lett.85(6), 1069–1071 (2004).
[CrossRef]

Lawrence, R. W.

J. W. Goodman and R. W. Lawrence, “Digital image formation from electronically detected holograms,” Appl. Phys. Lett.11(3), 77–79 (1967).
[CrossRef]

Li, Y.

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Lu, X.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

Manabe, T.

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

Marceau, C.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Matoba, O.

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel two-step phase-shifting digital holography,” Appl. Opt.47(19), D183–D189 (2008).
[CrossRef] [PubMed]

Meech, S. R.

M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
[CrossRef] [PubMed]

Meng, X. F.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Miccio, L.

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

Naughton, T. J.

Nishii, J.

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Nishio, K.

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel two-step phase-shifting digital holography,” Appl. Opt.47(19), D183–D189 (2008).
[CrossRef] [PubMed]

Nitta, K.

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

Otani, K.

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

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M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

Peng, X.

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

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M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
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T.-C. Poon, “Recent progress in optical scanning holography,” J. Holograph. Speckle1(1), 6–25 (2004).
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M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

Sakabe, S.

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

Sasada, M.

Y. Awatsuji, M. Sasada, and T. Kubota, “Parallel quasi-phase-shifting digital holography,” Appl. Phys. Lett.85(6), 1069–1071 (2004).
[CrossRef]

Sasaki, Y.

Sato, T.

Saurenbach, F.

M. Helm, J. J. Servant, F. Saurenbach, and R. Berger, “Read-out of micromechanical cantilever sensors by phase shifting interferometry,” Appl. Phys. Lett.87(6), 064101 (2005).
[CrossRef]

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M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

Servant, J. J.

M. Helm, J. J. Servant, F. Saurenbach, and R. Berger, “Read-out of micromechanical cantilever sensors by phase shifting interferometry,” Appl. Phys. Lett.87(6), 064101 (2005).
[CrossRef]

Shen, X. X.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Shi, L.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

Shimozato, Y.

Shinagawa, T.

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Stoner-Ma, D.

M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
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Y. Surrel, “Fringe analysis,” Top. Appl. Phys.77, 55–102 (2000).
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T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel two-step phase-shifting digital holography,” Appl. Opt.47(19), D183–D189 (2008).
[CrossRef] [PubMed]

Tajahuerce, E.

Théberge, F.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Tokita, S.

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

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X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
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M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
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D. Toptygin, T. B. Woolf, and L. Brand, “Picosecond protein dynamics: the origin of the time-dependent spectral shift in the fluorescence of the single Trp in the protein GB1,” J. Phys. Chem. B114(34), 11323–11337 (2010).
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T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

Tsuru, T.

Ura, S.

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

T. Kakue, R. Yonesaka, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “High-speed phase imaging by parallel phase-shifting digital holography,” Opt. Lett.36(21), 4131–4133 (2011).
[CrossRef] [PubMed]

T. Tahara, K. Ito, M. Fujii, T. Kakue, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Experimental demonstration of parallel two-step phase-shifting digital holography,” Opt. Express18(18), 18975–18980 (2010).
[CrossRef] [PubMed]

T. Tahara, K. Ito, T. Kakue, M. Fujii, Y. Shimozato, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel phase-shifting digital holographic microscopy,” Biomed. Opt. Express1(2), 610–616 (2010).
[CrossRef] [PubMed]

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

Y. Awatsuji, T. Tahara, A. Kaneko, T. Koyama, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Parallel two-step phase-shifting digital holography,” Appl. Opt.47(19), D183–D189 (2008).
[CrossRef] [PubMed]

Wang, T.-J.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Wang, Y.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

Wang, Y. R.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Watanabe, W.

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Woolf, T. B.

D. Toptygin, T. B. Woolf, and L. Brand, “Picosecond protein dynamics: the origin of the time-dependent spectral shift in the fluorescence of the single Trp in the protein GB1,” J. Phys. Chem. B114(34), 11323–11337 (2010).
[CrossRef] [PubMed]

Wu, J.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

Xia, P.

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

Xu, X. F.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Xu, Z.

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

Yamada, K.

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

Yang, X.

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

Yang, X. L.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

X. F. Meng, L. Z. Cai, X. F. Xu, X. L. Yang, X. X. Shen, G. Y. Dong, and Y. R. Wang, “Two-step phase-shifting interferometry and its application in image encryption,” Opt. Lett.31(10), 1414–1416 (2006).
[CrossRef] [PubMed]

Yonesaka, R.

Yuan, S.

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

Yuasa, J.

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

Zeng, H.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

Zhang, H.

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

Zhang, Y.

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

Appl. Opt. (3)

Appl. Phys. Express (1)

P. Xia, T. Tahara, M. Fujii, T. Kakue, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Removing the residual zeroth-order diffraction wave in polarization-based parallel phase-shifting digital holography system,” Appl. Phys. Express4(7), 072501 (2011).
[CrossRef]

Appl. Phys. Lett. (12)

X. F. Xu, L. Z. Cai, Y. R. Wang, X. L. Yang, X. F. Meng, G. Y. Dong, X. X. Shen, and H. Zhang, “Generalized phase-shifting interferometry with arbitrary unknown phase shifts: direct wave-front reconstruction by blind phase shift extraction and its experimental verification,” Appl. Phys. Lett.90(12), 121124 (2007).
[CrossRef]

M. Helm, J. J. Servant, F. Saurenbach, and R. Berger, “Read-out of micromechanical cantilever sensors by phase shifting interferometry,” Appl. Phys. Lett.87(6), 064101 (2005).
[CrossRef]

M. de Angelis, S. De Nicola, A. Finizio, G. Pierattini, P. Ferraro, S. Pelli, G. Righini, and S. Sebastiani, “Digital-holography refractive-index-profile measurement of phase gratings,” Appl. Phys. Lett.88(11), 111114 (2006).
[CrossRef]

L. Miccio, D. Alfieri, S. Grilli, P. Ferraro, A. Finizio, L. De Petrocellis, and S. De Nicola, “Direct full compensation of the aberrations in quantitative phase microscopy of thin objects by a single digital hologram,” Appl. Phys. Lett.90(4), 041104 (2007).
[CrossRef]

J. W. Goodman and R. W. Lawrence, “Digital image formation from electronically detected holograms,” Appl. Phys. Lett.11(3), 77–79 (1967).
[CrossRef]

Y. Awatsuji, M. Sasada, and T. Kubota, “Parallel quasi-phase-shifting digital holography,” Appl. Phys. Lett.85(6), 1069–1071 (2004).
[CrossRef]

X. Yang, J. Wu, Y. Tong, L. Ding, Z. Xu, and H. Zeng, “Femtosecond laser pulse energy transfer induced by plasma grating due to filament interaction in air,” Appl. Phys. Lett.97(7), 071108 (2010).
[CrossRef]

Y. Wang, Y. Zhang, P. Chen, L. Shi, X. Lu, J. Wu, L. Ding, and H. Zeng, “The formation of an intense filament controlled by interference of ultraviolet femtosecond pulses,” Appl. Phys. Lett.98(11), 111103 (2011).
[CrossRef]

Y. Li, W. Watanabe, K. Yamada, T. Shinagawa, K. Itoh, J. Nishii, and Y. Jiang, “Holographic fabrication of multiple layers of grating inside soda-lime glass with femtosecond laser pulses,” Appl. Phys. Lett.80(9), 1508–1510 (2002).
[CrossRef]

O. Matoba, Y. Kitamura, T. Manabe, K. Nitta, and W. Watanabe, “Fabrication of controlled volume scattering medium in poly(methyl methacrylate) by focused femtosecond laser pulses,” Appl. Phys. Lett.95(22), 221114 (2009).
[CrossRef]

T.-J. Wang, C. Marceau, Y. Chen, S. Yuan, F. Théberge, M. Cha^teauneuf, J. Dubois, and S. L. Chin, “Terahertz emission from a dc-biased two-color femtosecond laser-induced filament in air,” Appl. Phys. Lett.96(21), 211113 (2010).
[CrossRef]

S. Inoue, S. Tokita, K. Otani, M. Hashida, and S. Sakabe, “Femtosecond electron deflectometry for measuring transient fields generated by laser-accelerated fast electrons,” Appl. Phys. Lett.99(3), 031501 (2011).
[CrossRef]

Biomed. Opt. Express (1)

IEEE J. Sel. Top. Quantum Electron. (1)

T. Kakue, K. Tosa, J. Yuasa, T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, and T. Kubota, “Digital light-in-flight recording by holography by use of a femtosecond pulsed laser,” IEEE J. Sel. Top. Quantum Electron.18(1), 479–485 (2012).
[CrossRef]

J. Am. Chem. Soc. (1)

M. Kondo, I. A. Heisler, D. Stoner-Ma, P. J. Tonge, and S. R. Meech, “Ultrafast dynamics of protein proton transfer on short hydrogen bond potential energy surfaces: S65T/H148D GFP,” J. Am. Chem. Soc.132(5), 1452–1453 (2010).
[CrossRef] [PubMed]

J. Electron. Imaging (1)

T. Tahara, Y. Shimozato, T. Kakue, M. Fujii, X. Peng, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative evaluation of the image-reconstruction algorithms of single-shot phase-shifting digital holography,” J. Electron. Imaging21(1), 013021 (2012).
[CrossRef]

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T.-C. Poon, “Recent progress in optical scanning holography,” J. Holograph. Speckle1(1), 6–25 (2004).
[CrossRef]

J. Phys. Chem. B (1)

D. Toptygin, T. B. Woolf, and L. Brand, “Picosecond protein dynamics: the origin of the time-dependent spectral shift in the fluorescence of the single Trp in the protein GB1,” J. Phys. Chem. B114(34), 11323–11337 (2010).
[CrossRef] [PubMed]

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[CrossRef]

Opt. Express (1)

Opt. Lett. (3)

Opt. Rev. (2)

T. Tahara, Y. Awatsuji, K. Nishio, S. Ura, T. Kubota, and O. Matoba, “Comparative analysis and quantitative evaluation of the field of view and the viewing zone of single-shot phase-shifting digital holography using space-division multiplexing,” Opt. Rev.17(6), 519–524 (2010).
[CrossRef]

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[CrossRef]

Top. Appl. Phys. (1)

Y. Surrel, “Fringe analysis,” Top. Appl. Phys.77, 55–102 (2000).
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Other (1)

M. Sasada, Y. Awatsuji, and T. Kubota, “Parallel quasi-phase-shifting digital holography that can achieve instantaneous measurement,” Tech. Dig. 2004 ICO International Conference: Optics and Photonics in Technology Frontier (International Commission for Optics, 2004) 187–188 (2004).

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Figures (5)

Fig. 1
Fig. 1

Schematic flow of parallel two-step phase-shifting digital holography.

Fig. 2
Fig. 2

Schematic of optical setup in the experiment. M: mirror, MM: mirror with micro-moving stage, HM: half mirror, NL: plano-concave lens, CL: collimator lens, QWP: quarter-wave plate, P: polarizer.

Fig. 3
Fig. 3

Transitions of polarizations and phase shifts of object and reference waves in the experiment.

Fig. 4
Fig. 4

Photographs of polarization-imaging camera and its image sensor plane.

Fig. 5
Fig. 5

(a) Photograph of object (spark discharge) taken with a digital still camera. [(b) and (c)] Reconstructed phase images without and with phase-shifting interferometry, respectively. (d) Reconstructed phase image with phase-shifting interferometry by using the most appropriate distribution of the intensity of the reference light pulse.

Equations (1)

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Δθ= 2πΔnd λ .

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