Abstract

Single-shot ultra-high-speed imaging is of great significance to capture transient phenomena in physics, biology, and chemistry in real time. Existing techniques, however, have a restricted application scope, a low sequence depth, or a limited pixel count. To overcome these limitations, we developed single-shot compressed optical-streaking ultra-high-speed photography (COSUP) with an imaging speed of 1.5 million frames per second, a sequence depth of 500 frames, and an (x,y) pixel count of 0.5 megapixels per frame. COSUP’s single-shot ultra-high-speed imaging ability was demonstrated by recording single laser pulses illuminating through transmissive targets and by tracing a fast-moving object. As a universal imaging platform, COSUP is capable of increasing imaging speeds of a wide range of CCD and complementary metal–oxide–semiconductor cameras by four orders of magnitude. We envision COSUP to be applied in widespread applications in biomedicine and materials science.

© 2019 Optical Society of America

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References

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2017 (5)

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2016 (2)

2015 (2)

2014 (1)

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2013 (7)

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K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
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T. Chen, T. J. Wardill, Y. Sun, S. R. Pulver, S. L. Renninger, A. Baohan, E. R. Schreiter, R. A. Kerr, M. B. Orger, V. Jayaraman, L. L. Looger, K. Svoboda, and D. S. Kim, Nature 499, 295 (2013).
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A. Ehn, J. Bood, Z. Li, E. Berrocal, M. Alden, and E. Kristensson, Light: Sci. Appl. 6, e17045 (2017).
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Brackbill, N.

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J. Hunt, T. Driscoll, A. Mrozack, G. Lipworth, M. Reynolds, D. Brady, and D. R. Smith, Science 339, 310 (2013).
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Brady, D. J.

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B. D. Buckner and D. L’Esperance, Opt. Eng. 52, 083105 (2013).
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Chan, A. C.

J. Wu, Y. Xu, J. Xu, X. Wei, A. C. Chan, A. H. Tang, A. K. Lau, B. M. Chung, H. C. Shum, E. Y. Lam, K. K. Wong, and K. K. Tsia, Light: Sci. Appl. 6, e16196 (2017).
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T. Chen, T. J. Wardill, Y. Sun, S. R. Pulver, S. L. Renninger, A. Baohan, E. R. Schreiter, R. A. Kerr, M. B. Orger, V. Jayaraman, L. L. Looger, K. Svoboda, and D. S. Kim, Nature 499, 295 (2013).
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C. T. Chin, C. Lancee, J. Borsboom, F. Mastik, M. E. Frijlink, N. de Jong, M. Versluis, and D. Lohse, Rev. Sci. Instrum. 74, 5026 (2003).
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Chung, B. M.

J. Wu, Y. Xu, J. Xu, X. Wei, A. C. Chan, A. H. Tang, A. K. Lau, B. M. Chung, H. C. Shum, E. Y. Lam, K. K. Wong, and K. K. Tsia, Light: Sci. Appl. 6, e16196 (2017).
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Cossairt, O.

Dan, D.

de Jong, N.

C. T. Chin, C. Lancee, J. Borsboom, F. Mastik, M. E. Frijlink, N. de Jong, M. Versluis, and D. Lohse, Rev. Sci. Instrum. 74, 5026 (2003).
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Di Carlo, D.

K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
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Dong, M.

M. Dong, S. Husale, and O. Sahin, Nat. Nanotechnol. 4, 514 (2009).
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D. L. Donoho, IEEE Trans. Inf. Theory 52, 1289 (2006).
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Driscoll, T.

J. Hunt, T. Driscoll, A. Mrozack, G. Lipworth, M. Reynolds, D. Brady, and D. R. Smith, Science 339, 310 (2013).
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A. Ehn, J. Bood, Z. Li, E. Berrocal, M. Alden, and E. Kristensson, Light: Sci. Appl. 6, e17045 (2017).
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Etoh, T. G.

T. G. Etoh, D. V. Son, T. Yamada, and E. Charbon, Sensors 13, 4640 (2013).
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Fard, A. M.

K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
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J. M. Bioucas-Dias and M. A. T. Figueiredo, IEEE Trans. Image Process. 16, 2992 (2007).
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C. T. Chin, C. Lancee, J. Borsboom, F. Mastik, M. E. Frijlink, N. de Jong, M. Versluis, and D. Lohse, Rev. Sci. Instrum. 74, 5026 (2003).
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P. W. W. Fuller, Imaging Sci. J. 57, 293 (2009).
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J. Liang, C. Ma, L. Zhu, Y. Chen, L. Gao, and L. V. Wang, Sci. Adv. 3, e1601814 (2017).
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H. Mikami, L. Gao, and K. Goda, Nanophotonics 5, 497 (2016).
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L. Gao, J. Liang, C. Li, and L. V. Wang, Nature 516, 74 (2014).
[Crossref]

Goda, K.

H. Mikami, L. Gao, and K. Goda, Nanophotonics 5, 497 (2016).
[Crossref]

K. Goda and B. Jalali, Nat. Photonics 7, 102 (2013).
[Crossref]

K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
[Crossref]

K. Goda, K. K. Tsia, and B. Jalali, Nature 458, 1145 (2009).
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Goldstein, T.

R. G. Baraniuk, T. Goldstein, A. C. Sankaranarayanan, C. Studer, A. Veeraraghavan, and M. B. Wakin, IEEE Signal Proc. Mag. 34(1), 52 (2017).
[Crossref]

Gossett, D. R.

K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
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Gu, J.

Y. Hitomi, J. Gu, M. Gupta, T. Mitsunaga, and S. K. Nayar, in IEEE International Conference on Computer Vision (2011), p. 287.

Gupta, M.

Y. Hitomi, J. Gu, M. Gupta, T. Mitsunaga, and S. K. Nayar, in IEEE International Conference on Computer Vision (2011), p. 287.

Hitomi, Y.

Y. Hitomi, J. Gu, M. Gupta, T. Mitsunaga, and S. K. Nayar, in IEEE International Conference on Computer Vision (2011), p. 287.

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S. S. Howard, A. Straub, N. G. Horton, D. Kobat, and C. Xu, Nat. Photonics 7, 33 (2013).
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Howard, S. S.

S. S. Howard, A. Straub, N. G. Horton, D. Kobat, and C. Xu, Nat. Photonics 7, 33 (2013).
[Crossref]

Hunt, J.

J. Hunt, T. Driscoll, A. Mrozack, G. Lipworth, M. Reynolds, D. Brady, and D. R. Smith, Science 339, 310 (2013).
[Crossref]

Hur, S. C.

K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
[Crossref]

Husale, S.

M. Dong, S. Husale, and O. Sahin, Nat. Nanotechnol. 4, 514 (2009).
[Crossref]

Jalali, B.

K. Goda and B. Jalali, Nat. Photonics 7, 102 (2013).
[Crossref]

K. Goda, A. Ayazi, D. R. Gossett, J. Sadasivam, C. K. Lonappan, E. Sollier, A. M. Fard, S. C. Hur, J. Adam, C. Murray, C. Wang, N. Brackbill, D. Di Carlo, and B. Jalali, Proc. Natl. Acad. Sci. USA 109, 11630 (2012).
[Crossref]

K. Goda, K. K. Tsia, and B. Jalali, Nature 458, 1145 (2009).
[Crossref]

Jaque, D.

D. Jaque and F. Vetrone, Nanoscale 4, 4301 (2012).
[Crossref]

Jayaraman, V.

T. Chen, T. J. Wardill, Y. Sun, S. R. Pulver, S. L. Renninger, A. Baohan, E. R. Schreiter, R. A. Kerr, M. B. Orger, V. Jayaraman, L. L. Looger, K. Svoboda, and D. S. Kim, Nature 499, 295 (2013).
[Crossref]

Kagawa, K.

Katsaggelos, A. K.

Kawahito, S.

Kerr, R. A.

T. Chen, T. J. Wardill, Y. Sun, S. R. Pulver, S. L. Renninger, A. Baohan, E. R. Schreiter, R. A. Kerr, M. B. Orger, V. Jayaraman, L. L. Looger, K. Svoboda, and D. S. Kim, Nature 499, 295 (2013).
[Crossref]

Kim, D. S.

T. Chen, T. J. Wardill, Y. Sun, S. R. Pulver, S. L. Renninger, A. Baohan, E. R. Schreiter, R. A. Kerr, M. B. Orger, V. Jayaraman, L. L. Looger, K. Svoboda, and D. S. Kim, Nature 499, 295 (2013).
[Crossref]

Kittle, D.

Kobat, D.

S. S. Howard, A. Straub, N. G. Horton, D. Kobat, and C. Xu, Nat. Photonics 7, 33 (2013).
[Crossref]

Koller, R.

Kristensson, E.

A. Ehn, J. Bood, Z. Li, E. Berrocal, M. Alden, and E. Kristensson, Light: Sci. Appl. 6, e17045 (2017).
[Crossref]

Kuroda, R.

M. Suzuki, M. Suzuki, R. Kuroda, and S. Sugawa, Electron. Imaging 2018, 398 (2018).
[Crossref]

L’Esperance, D.

B. D. Buckner and D. L’Esperance, Opt. Eng. 52, 083105 (2013).
[Crossref]

Lam, E. Y.

J. Wu, Y. Xu, J. Xu, X. Wei, A. C. Chan, A. H. Tang, A. K. Lau, B. M. Chung, H. C. Shum, E. Y. Lam, K. K. Wong, and K. K. Tsia, Light: Sci. Appl. 6, e16196 (2017).
[Crossref]

Lancee, C.

C. T. Chin, C. Lancee, J. Borsboom, F. Mastik, M. E. Frijlink, N. de Jong, M. Versluis, and D. Lohse, Rev. Sci. Instrum. 74, 5026 (2003).
[Crossref]

Lau, A. K.

J. Wu, Y. Xu, J. Xu, X. Wei, A. C. Chan, A. H. Tang, A. K. Lau, B. M. Chung, H. C. Shum, E. Y. Lam, K. K. Wong, and K. K. Tsia, Light: Sci. Appl. 6, e16196 (2017).
[Crossref]

Lei, M.

Li, C.

L. Gao, J. Liang, C. Li, and L. V. Wang, Nature 516, 74 (2014).
[Crossref]

Li, R.

Li, Z.

A. Ehn, J. Bood, Z. Li, E. Berrocal, M. Alden, and E. Kristensson, Light: Sci. Appl. 6, e17045 (2017).
[Crossref]

Liang, J.

J. Liang, L. Zhu, and L. V. Wang, Light: Sci. Appl. 7, 42 (2018).
[Crossref]

J. Liang and L. V. Wang, Optica 5, 1113 (2018).
[Crossref]

J. Liang, C. Ma, L. Zhu, Y. Chen, L. Gao, and L. V. Wang, Sci. Adv. 3, e1601814 (2017).
[Crossref]

L. Gao, J. Liang, C. Li, and L. V. Wang, Nature 516, 74 (2014).
[Crossref]

Liao, X.

Lipworth, G.

J. Hunt, T. Driscoll, A. Mrozack, G. Lipworth, M. Reynolds, D. Brady, and D. R. Smith, Science 339, 310 (2013).
[Crossref]

Llull, P.

Lohse, D.

C. T. Chin, C. Lancee, J. Borsboom, F. Mastik, M. E. Frijlink, N. de Jong, M. Versluis, and D. Lohse, Rev. Sci. Instrum. 74, 5026 (2003).
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Supplementary Material (4)

NameDescription
» Visualization 1       Quantifying COSUP’s spatial frequency responses.
» Visualization 2       Recording transmission of single laser pulses through a mask using COSUP at 60 kfps.
» Visualization 3       Recording transmission of a single laser pulse through a mask using COSUP at 1.5 Mfps.
» Visualization 4       Tracing a fast-moving object using COSUP at 140 kfps.

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Figures (4)

Fig. 1.
Fig. 1. Schematic of the COSUP system. Inset: synchronization between the CMOS camera’s exposure (black solid line) with an exposure time of te and the galvonometer scanner’s sinusoidal control signal (blue dashed line) with a period of tg. Lenses 1 and 4, AC508-075, Thorlabs; Lenses 2 and 3, AC508-100, Thorlabs.
Fig. 2.
Fig. 2. Quantifying COSUP’s spatial frequency responses. (a) Experimental setup. (b) Illuminated bars on the resolution target. In the first panel, the numbers represent Elements 4 to 6 in Group 2 and Elements 1 to 6 in Group 3. The rest of the panels show the projected images of illuminated bars for different laser pulse widths, calculated by summing over voxels of the reconstructed (x,y,t) datacubes along the t axis. (c) Comparison of COSUP’s spatial frequency responses with different laser pulse widths. (See Visualization 1.)
Fig. 3.
Fig. 3. Recording transmission of single laser pulses through a mask using COSUP. (a) A represented reconstructed frame showing a 300 μs laser pulse passing through a transmissive USAF pattern. The imaging speed was 60 kfps. Inset: the time-integrated image captured by the CMOS camera with its intrinsic imaging speed (20 fps). (b) Normalized intensity of a selected cross section [cyan dashed lines in (a) and (d)] in the ground truth (black circle) and in the representative reconstructed frames using 300 μs (green solid line) and 10 μs (magenta dashed line) laser pulses. (c) Comparison of the measured normalized average intensity of the laser pulse as a function of time using the COSUP system (red solid line) and a photodiode (black dashed line) for the 300 μs laser pulse. (d) The same as (a), but using a 10 μs laser pulse with a 1.5 Mfps imaging speed. (e) The same as (c), but for a 10 μs laser pulse. (See Visualization 2 and Visualization 3.)
Fig. 4.
Fig. 4. Tracing a fast-moving object using COSUP. (a) Experimental setup. (b) Time-integrated image of the fast-moving ball patterns, imaged at the intrinsic frame rate of the CMOS camera (20 fps). (c) Superimposed image of 10 representative time-lapse frames (with an interval of 215 μs) of the same dynamic scene in (b), imaged by using the COSUP system. (d) Comparison of the centroid positions along the x and y axes between the measurement results and the ground truths. To avoid cluttering, only one data point is shown for every seven measured data points. (See Visualization 4.)

Equations (3)

Equations on this page are rendered with MathJax. Learn more.

E=TSoCI(x,y,t),
I^=argminI{ETSoCI22+λϕTV(I)}.
r=αUf4tgd.