Abstract

Microscopy techniques allowing observation of unlabeled samples have recently experienced a regain of interest. In particular, approaches based on recording of the optical field diffracted by the specimen, in amplitude and phase, have proven their capacities for biological investigations. When combined with variations of specimen illumination, tomographic acquisitions are possible. One limitation of previously developed approaches is the anisotropic resolution, characteristic of all transmission microscopes. In this context, an instrument, characterized by isotropic high-resolution 3D imaging capabilities, is still awaited. For the first time, to the best of our knowledge, we have developed tomographic diffractive microscopy combining specimen rotation and illumination rotation, which delivers images with (almost) isotropic resolution below 200 nm. The method is illustrated by observations of nanoscopic fiber tips, microcrystals and pollens, and should be helpful for characterizing freestanding natural (diatoms, spores, red or white blood cells, etc.) or artificial samples.

© 2017 Optical Society of America

Full Article  |  PDF Article
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References

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2017 (1)

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

2016 (5)

2015 (1)

2014 (7)

H. Liu, J. Bailleul, B. Simon, M. Debailleul, B. Colicchio, and O. Haeberlé, Appl. Opt. 53, 748 (2014).
[Crossref]

B. Bhaduri, C. Edwards, H. Pham, R. Zhou, T. Nguyen, L. Goddard, and G. Popescu, Adv. Opt. Photon. 6, 57 (2014).
[Crossref]

K. Kim, H. Yoon, M. Diez-Silva, M. Dao, R. R. Dasari, and Y. Park, J. Biomed. Opt. 19, 011005 (2014).
[Crossref]

T. Kim, R. Zhou, M. Mir, S. Derin Babacan, P. Scott Carney, L. L. Goddard, and G. Popescu, Nat. Photonics 8, 256 (2014).
[Crossref]

Y.-C. Lin and C.-J. Cheng, J. Opt. 16, 065401 (2014).
[Crossref]

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

A. Kus, M. Dudek, B. Kemper, M. Kujawińska, and A. Vollmer, J. Biomed. Opt 19, 46009 (2014).
[Crossref]

2013 (2)

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Y. Cotte, F. Toy, P. Jourdain, N. Pavillon, D. Boss, P. Magistretti, P. Marquet, and C. Depeursinge, Nat. Photonics 7, 113 (2013).
[Crossref]

2011 (1)

S. Vertu, J. Flügge, J.-J. Delaunay, and O. Haeberlé, Central Eur. J. Phys. 9, 969 (2011).
[Crossref]

2010 (2)

O. Haeberlé, K. Belkebir, H. Giovannini, and A. Sentenac, J. Mod. Opt. 57, 686 (2010).
[Crossref]

B. Simon, M. Debailleul, A. Beghin, Y. Tourneur, and O. Haeberlé, J. Biophoton. 3, 462 (2010).
[Crossref]

2009 (3)

B. Le Saux, B. Ghalmond, Y. Yu, A. Trouvé, O. Renaud, and S. L. Shorte, J. Microsc. 233, 404 (2009).
[Crossref]

M. Debailleul, V. Georges, B. Simon, R. Morin, and O. Haeberlé, Opt. Lett. 34, 79 (2009).
[Crossref]

S. Vertu, J.-J. Delaunay, I. Yamada, and O. Haeberlé, Central Eur. J. Phys. 7, 22 (2009).
[Crossref]

2008 (3)

M. Debailleul, B. Simon, V. Georges, O. Haeberlé, and V. Lauer, Meas. Sci. Technol. 19, 074009 (2008).
[Crossref]

Y. Park, M. Diez-Silva, G. Popescu, G. Lykotrafitis, W. Choi, M. S. Feld, and S. Suresh, Proc. Natl. Acad. Sci. USA 105, 13730 (2008).
[Crossref]

M. K. Kreysing, T. Kießling, A. Fritsch, and C. Dietrich, Opt. Express 16, 16984 (2008).
[Crossref]

2007 (1)

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

2006 (1)

2002 (1)

V. Lauer, J. Microsc. 205, 165 (2002).
[Crossref]

2000 (1)

A. Barty, K. A. Nugent, A. Roberts, and D. Paganin, Opt. Commun. 175, 329 (2000).
[Crossref]

1997 (1)

M. Xiao, J. Nieto, J. Siqueiros, and R. Machorro, Rev. Sci. Instrum. 68, 2787 (1997).
[Crossref]

1995 (1)

T. C. Wedberg and W. C. Wedberg, J. Microsc. 177, 53 (1995).
[Crossref]

1969 (1)

E. Wolf, Opt. Commun. 1, 153 (1969).
[Crossref]

Allain, M.

Badizadegan, K.

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

Bailleul, J.

Barnea, I.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Barrier, S.

S. Barrier, “Physical and chemical properties of sporopollenin exine particles,” Ph.D. dissertation (University of Hull, 2008).

Barty, A.

A. Barty, K. A. Nugent, A. Roberts, and D. Paganin, Opt. Commun. 175, 329 (2000).
[Crossref]

Beghin, A.

B. Simon, M. Debailleul, A. Beghin, Y. Tourneur, and O. Haeberlé, J. Biophoton. 3, 462 (2010).
[Crossref]

Belkebir, K.

Bhaduri, B.

Boss, D.

Y. Cotte, F. Toy, P. Jourdain, N. Pavillon, D. Boss, P. Magistretti, P. Marquet, and C. Depeursinge, Nat. Photonics 7, 113 (2013).
[Crossref]

Chang, G.

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Charrière, F.

Chaumet, P.

Cheng, C.-J.

Y.-C. Lin and C.-J. Cheng, J. Opt. 16, 065401 (2014).
[Crossref]

Cho, S.

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Choi, C.

K. Kim, S. Lee, J. Yoon, J. Heo, C. Choi, and Y. Park, Sci. Rep. 6, 36815 (2016).
[Crossref]

Choi, W.

Y. Park, M. Diez-Silva, G. Popescu, G. Lykotrafitis, W. Choi, M. S. Feld, and S. Suresh, Proc. Natl. Acad. Sci. USA 105, 13730 (2008).
[Crossref]

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

Colicchio, B.

Colomb, T.

Cotte, Y.

Y. Cotte, F. Toy, P. Jourdain, N. Pavillon, D. Boss, P. Magistretti, P. Marquet, and C. Depeursinge, Nat. Photonics 7, 113 (2013).
[Crossref]

Cuche, E.

Dao, M.

K. Kim, H. Yoon, M. Diez-Silva, M. Dao, R. R. Dasari, and Y. Park, J. Biomed. Opt. 19, 011005 (2014).
[Crossref]

Dardikman, G.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Dasari, R. R.

K. Kim, H. Yoon, M. Diez-Silva, M. Dao, R. R. Dasari, and Y. Park, J. Biomed. Opt. 19, 011005 (2014).
[Crossref]

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

Debailleul, M.

H. Liu, J. Bailleul, B. Simon, M. Debailleul, B. Colicchio, and O. Haeberlé, Appl. Opt. 53, 748 (2014).
[Crossref]

B. Simon, M. Debailleul, A. Beghin, Y. Tourneur, and O. Haeberlé, J. Biophoton. 3, 462 (2010).
[Crossref]

M. Debailleul, V. Georges, B. Simon, R. Morin, and O. Haeberlé, Opt. Lett. 34, 79 (2009).
[Crossref]

M. Debailleul, B. Simon, V. Georges, O. Haeberlé, and V. Lauer, Meas. Sci. Technol. 19, 074009 (2008).
[Crossref]

Delaunay, J.-J.

S. Vertu, J. Flügge, J.-J. Delaunay, and O. Haeberlé, Central Eur. J. Phys. 9, 969 (2011).
[Crossref]

S. Vertu, J.-J. Delaunay, I. Yamada, and O. Haeberlé, Central Eur. J. Phys. 7, 22 (2009).
[Crossref]

Depeursinge, C.

Y. Cotte, F. Toy, P. Jourdain, N. Pavillon, D. Boss, P. Magistretti, P. Marquet, and C. Depeursinge, Nat. Photonics 7, 113 (2013).
[Crossref]

F. Charrière, A. Marian, F. Montfort, J. Kuehn, T. Colomb, E. Cuche, P. Marquet, and C. Depeursinge, Opt. Lett. 31, 178 (2006).
[Crossref]

Derin Babacan, S.

T. Kim, R. Zhou, M. Mir, S. Derin Babacan, P. Scott Carney, L. L. Goddard, and G. Popescu, Nat. Photonics 8, 256 (2014).
[Crossref]

Dietrich, C.

Diez-Silva, M.

K. Kim, H. Yoon, M. Diez-Silva, M. Dao, R. R. Dasari, and Y. Park, J. Biomed. Opt. 19, 011005 (2014).
[Crossref]

Y. Park, M. Diez-Silva, G. Popescu, G. Lykotrafitis, W. Choi, M. S. Feld, and S. Suresh, Proc. Natl. Acad. Sci. USA 105, 13730 (2008).
[Crossref]

Dudek, M.

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

A. Kus, M. Dudek, B. Kemper, M. Kujawińska, and A. Vollmer, J. Biomed. Opt 19, 46009 (2014).
[Crossref]

Duschl, C.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Edwards, C.

Fang-Yen, C.

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

Feld, M. S.

Y. Park, M. Diez-Silva, G. Popescu, G. Lykotrafitis, W. Choi, M. S. Feld, and S. Suresh, Proc. Natl. Acad. Sci. USA 105, 13730 (2008).
[Crossref]

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

Flügge, J.

S. Vertu, J. Flügge, J.-J. Delaunay, and O. Haeberlé, Central Eur. J. Phys. 9, 969 (2011).
[Crossref]

Fritsch, A.

Georges, V.

M. Debailleul, V. Georges, B. Simon, R. Morin, and O. Haeberlé, Opt. Lett. 34, 79 (2009).
[Crossref]

M. Debailleul, B. Simon, V. Georges, O. Haeberlé, and V. Lauer, Meas. Sci. Technol. 19, 074009 (2008).
[Crossref]

Ghalmond, B.

B. Le Saux, B. Ghalmond, Y. Yu, A. Trouvé, O. Renaud, and S. L. Shorte, J. Microsc. 233, 404 (2009).
[Crossref]

Gilboa, B.

Giovannini, H.

Godavarthi, C.

Goddard, L.

Goddard, L. L.

T. Kim, R. Zhou, M. Mir, S. Derin Babacan, P. Scott Carney, L. L. Goddard, and G. Popescu, Nat. Photonics 8, 256 (2014).
[Crossref]

Guernth-Marschner, C.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Habaza, M.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

M. Habaza, B. Gilboa, Y. Roichman, and N. Shaked, Opt. Lett. 40, 1881 (2015).
[Crossref]

Haeberlé, O.

H. Liu, J. Bailleul, B. Simon, M. Debailleul, B. Colicchio, and O. Haeberlé, Appl. Opt. 53, 748 (2014).
[Crossref]

S. Vertu, J. Flügge, J.-J. Delaunay, and O. Haeberlé, Central Eur. J. Phys. 9, 969 (2011).
[Crossref]

O. Haeberlé, K. Belkebir, H. Giovannini, and A. Sentenac, J. Mod. Opt. 57, 686 (2010).
[Crossref]

B. Simon, M. Debailleul, A. Beghin, Y. Tourneur, and O. Haeberlé, J. Biophoton. 3, 462 (2010).
[Crossref]

M. Debailleul, V. Georges, B. Simon, R. Morin, and O. Haeberlé, Opt. Lett. 34, 79 (2009).
[Crossref]

S. Vertu, J.-J. Delaunay, I. Yamada, and O. Haeberlé, Central Eur. J. Phys. 7, 22 (2009).
[Crossref]

M. Debailleul, B. Simon, V. Georges, O. Haeberlé, and V. Lauer, Meas. Sci. Technol. 19, 074009 (2008).
[Crossref]

Heintzmann, R.

R. Horstmeyer, R. Heintzmann, G. Popescu, L. Waller, and C. Yang, Nat. Photonics 10, 68 (2016).
[Crossref]

Heo, J.

K. Kim, S. Lee, J. Yoon, J. Heo, C. Choi, and Y. Park, Sci. Rep. 6, 36815 (2016).
[Crossref]

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Horstmeyer, R.

R. Horstmeyer, R. Heintzmann, G. Popescu, L. Waller, and C. Yang, Nat. Photonics 10, 68 (2016).
[Crossref]

Jo, Y.

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Jourdain, P.

Y. Cotte, F. Toy, P. Jourdain, N. Pavillon, D. Boss, P. Magistretti, P. Marquet, and C. Depeursinge, Nat. Photonics 7, 113 (2013).
[Crossref]

Jung, J.

J. Jung, K. Kim, J. Yoon, and Y. Park, Opt. Express 24, 2006 (2016).
[Crossref]

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Kemper, B.

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

A. Kus, M. Dudek, B. Kemper, M. Kujawińska, and A. Vollmer, J. Biomed. Opt 19, 46009 (2014).
[Crossref]

B. Kemper, “Digital holographic microscopy: quantitative phase imaging and applications in live cell analysis,” in Handbook of Coherent-Domain Optical Methods, V. V. Tuchin, ed. (Springer, 2013).

Kießling, T.

Kim, K.

K. Kim, S. Lee, J. Yoon, J. Heo, C. Choi, and Y. Park, Sci. Rep. 6, 36815 (2016).
[Crossref]

J. Jung, K. Kim, J. Yoon, and Y. Park, Opt. Express 24, 2006 (2016).
[Crossref]

K. Kim, H. Yoon, M. Diez-Silva, M. Dao, R. R. Dasari, and Y. Park, J. Biomed. Opt. 19, 011005 (2014).
[Crossref]

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
[Crossref]

Kim, T.

T. Kim, R. Zhou, M. Mir, S. Derin Babacan, P. Scott Carney, L. L. Goddard, and G. Popescu, Nat. Photonics 8, 256 (2014).
[Crossref]

Kirschbaum, M.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Korenstein, R.

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Kostencka, J.

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

Kozacki, T.

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

Krauze, W.

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

Kreysing, M. K.

Kuehn, J.

Kujawinska, M.

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E. Wolf, Opt. Commun. 1, 153 (1969).
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M. Xiao, J. Nieto, J. Siqueiros, and R. Machorro, Rev. Sci. Instrum. 68, 2787 (1997).
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B. Le Saux, B. Ghalmond, Y. Yu, A. Trouvé, O. Renaud, and S. L. Shorte, J. Microsc. 233, 404 (2009).
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Zhou, R.

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Adv. Opt. Photon. (1)

Adv. Sci. (1)

M. Habaza, M. Kirschbaum, C. Guernth-Marschner, G. Dardikman, I. Barnea, R. Korenstein, C. Duschl, and N. T. Shaked, Adv. Sci. 4, 1600205 (2017).
[Crossref]

Appl. Opt. (1)

Central Eur. J. Phys. (2)

S. Vertu, J. Flügge, J.-J. Delaunay, and O. Haeberlé, Central Eur. J. Phys. 9, 969 (2011).
[Crossref]

S. Vertu, J.-J. Delaunay, I. Yamada, and O. Haeberlé, Central Eur. J. Phys. 7, 22 (2009).
[Crossref]

Int. J. Optomechatron. (1)

M. Kujawińska, W. Krauze, A. Kus, J. Kostencka, T. Kozacki, B. Kemper, and M. Dudek, Int. J. Optomechatron. 8, 357 (2014).
[Crossref]

J. Biomed. Opt (1)

A. Kus, M. Dudek, B. Kemper, M. Kujawińska, and A. Vollmer, J. Biomed. Opt 19, 46009 (2014).
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J. Biomed. Opt. (1)

K. Kim, H. Yoon, M. Diez-Silva, M. Dao, R. R. Dasari, and Y. Park, J. Biomed. Opt. 19, 011005 (2014).
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J. Biophoton. (1)

B. Simon, M. Debailleul, A. Beghin, Y. Tourneur, and O. Haeberlé, J. Biophoton. 3, 462 (2010).
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J. Microsc. (3)

T. C. Wedberg and W. C. Wedberg, J. Microsc. 177, 53 (1995).
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B. Le Saux, B. Ghalmond, Y. Yu, A. Trouvé, O. Renaud, and S. L. Shorte, J. Microsc. 233, 404 (2009).
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V. Lauer, J. Microsc. 205, 165 (2002).
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J. Mod. Opt. (1)

O. Haeberlé, K. Belkebir, H. Giovannini, and A. Sentenac, J. Mod. Opt. 57, 686 (2010).
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J. Opt. (1)

Y.-C. Lin and C.-J. Cheng, J. Opt. 16, 065401 (2014).
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M. Debailleul, B. Simon, V. Georges, O. Haeberlé, and V. Lauer, Meas. Sci. Technol. 19, 074009 (2008).
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Nat. Methods (1)

W. Choi, C. Fang-Yen, K. Badizadegan, S. Oh, N. Lue, R. R. Dasari, and M. S. Feld, Nat. Methods 4, 717 (2007).
[Crossref]

Nat. Photonics (3)

Y. Cotte, F. Toy, P. Jourdain, N. Pavillon, D. Boss, P. Magistretti, P. Marquet, and C. Depeursinge, Nat. Photonics 7, 113 (2013).
[Crossref]

T. Kim, R. Zhou, M. Mir, S. Derin Babacan, P. Scott Carney, L. L. Goddard, and G. Popescu, Nat. Photonics 8, 256 (2014).
[Crossref]

R. Horstmeyer, R. Heintzmann, G. Popescu, L. Waller, and C. Yang, Nat. Photonics 10, 68 (2016).
[Crossref]

Opt. Commun. (2)

A. Barty, K. A. Nugent, A. Roberts, and D. Paganin, Opt. Commun. 175, 329 (2000).
[Crossref]

E. Wolf, Opt. Commun. 1, 153 (1969).
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Opt. Express (3)

Opt. Lett. (3)

Optica (1)

Proc. Natl. Acad. Sci. USA (1)

Y. Park, M. Diez-Silva, G. Popescu, G. Lykotrafitis, W. Choi, M. S. Feld, and S. Suresh, Proc. Natl. Acad. Sci. USA 105, 13730 (2008).
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Rev. Sci. Instrum. (1)

M. Xiao, J. Nieto, J. Siqueiros, and R. Machorro, Rev. Sci. Instrum. 68, 2787 (1997).
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Sci. Rep. (1)

K. Kim, S. Lee, J. Yoon, J. Heo, C. Choi, and Y. Park, Sci. Rep. 6, 36815 (2016).
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Sensors (1)

K. Lee, K. Kim, J. Jung, J. Heo, S. Cho, S. Lee, G. Chang, Y. Jo, H. Park, and Y. Park, Sensors 13, 4170 (2013).
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Other (4)

B. Kemper, “Digital holographic microscopy: quantitative phase imaging and applications in live cell analysis,” in Handbook of Coherent-Domain Optical Methods, V. V. Tuchin, ed. (Springer, 2013).

K. Myung, Digital Holographic Microscopy: Principles, Techniques, and Applications, Springer Series in Optical Science (Springer, 2011), Vol. 162.

G. Popescu, Quantitative Phase Imaging of Cells and Tissues (McGraw-Hill, 2011).

S. Barrier, “Physical and chemical properties of sporopollenin exine particles,” Ph.D. dissertation (University of Hull, 2008).

Supplementary Material (5)

NameDescription
» Supplement 1: PDF (2851 KB)      Supplement 1
» Visualization 1: MOV (184 KB)      Construction of the OTF in TDM
» Visualization 2: MOV (306 KB)      Zeolite microcrystal observed in TDM-IR and TDM-IRSR
» Visualization 3: MOV (1066 KB)      Betula pollen grain observed in TDM-IRSR
» Visualization 4: MOV (1382 KB)      Betula pollen grain observed in TDM-IRSR

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Figures (4)

Fig. 1.
Fig. 1.

Construction of the OTF for various configurations of TDM. (a) Digital holographic microscopy. The recorded k-vectors kdiff are shifted back according to momentum conservation to provide object vectors kobj: the OTF depicts a cap of sphere of a large lateral, but limited, longitudinal extension. (b) When using inclined illumination in TDM-IR, the same positions of the kdiff vectors provide new kobj vectors. (c) A large set of illuminations results in a filled and extended OTF: TDM-IR provides improved-resolution, higher quality 3D images. Note, however, the presence of a so-called “missing cone” along the optical axis z, limiting longitudinal resolution and sectional capabilities. (d) OTF for TDM-SR. An almost completely filled sphere is obtained, but of lesser extension than in the previous case. (e) OTFs obtained for TDM-IRSR when combining TDM-IR with 0°, (0°; 90°) and (0°; 45°; 90°; 135°) specimen rotations [displayed at half-scale compared with (a)–(d)]. A missing-cone-free and extended support is obtained, showing that TDM-IRSR can deliver 3D, isotropic- and improved-resolution images. See also Visualization 1.

Fig. 2.
Fig. 2.

Lateral, axial and sagittal views of a tapered fiber tip, obtained by heat-and-pull technique and observed with TDM. (a) With TDM-IR. (xy) lateral plane view: note the excellent lateral resolution. (b) (xz) axial plane view: the missing cone in this configuration induces low resolution along the optical axis and the fiber tip is not visible. (c) (yz) sagittal view: the low sectional capabilities of TDM-IR translate into a deformed image of the specimen—the fiber section is not circular. Panels (d)–(f) show the same fiber observed with TDM-IRSR. The fiber tip is now clearly visible in both (xy) and (xz) views and the fiber section is almost circular, as expected. Combination of four acquisitions after specimen rotations of 0°, 54°, 90°, and 126° steps. Scale bar: 3 μm.

Fig. 3.
Fig. 3.

B. perennis pollen grain and zeolite crystal observed with TDM. (a) (xy) view for one angle of acquisition (TDM-IR). The polymer fiber tip, used to rotate the sample, is visible. Note the characteristic spikes of this type of pollen. (b) (xz) view in TDM-IR. Note the elongation along the optical axis, and the vanishing aspect of the pollen surface, due to the missing cone. The spikes are hardly recognizable. (c) Colored superimposition of three views of the same pollen grain for three angles of rotation of the sample (red, 0°; green, 54°; and blue, 108°). Note the complementarity of the data (colored arrows): fusion should permit delivering isotropic-resolution images. Scale bar: 10 μm. Panels (d)–(f) show images of a zeolite crystal for (d) one angle of acquisition (TDM-IR) and [(e, f)] after eight acquisitions and data fusion (TDM-IRSR). The crystal is better imaged; the surrounding small bubbles attached to the crystal are spherical with TDM-IRSR, whereas they appear elongated with TDM-IR only. Scale bar: 10 μm. See also Visualization 2.

Fig. 4.
Fig. 4.

Betula pollen grain observed with TDM. Panels (a) and (b) show volumetric cuts (xy views) through the 3D index of refraction image and absorption image, respectively. Note the higher index of refraction of the pollen walls, especially near the pores (double-headed arrow), and the double-layer outer wall (arrow). Scale bar: 10 μm. See also Visualization 3. (c) Outer view of the pollen: image of the absorption component, displayed in yellow. (d) Outer view of the pollen: image of the complex index of refraction, with the refractive component displayed in cyan. The photopolymer tip used to handle the sample is purely refractive, and, hence, visible on the index component but not on the absorption image. (e) (xy) cut through the pollen. Note that the absorptive components are confined to the interior of the pollen, nucleus and intine, and absent from the exine. See also Visualization 4.

Equations (4)

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

Δνx,yHolo=2nsinθλandΔνzHolo=n(1cosθ)λ.
Δνx,yTDM-IR=4nsinθλandΔνzTDM-IR=2n(1cosθ)λ.
Δνx,zTDM-SR=4nsin(θ/2)λandΔνyTDM-SR=2nsinθλ.
Δνx,y,zTDM-IRSR=4nsinθλ.

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