2021
N. Opatovski, Y. S. Ezra, L. E. Weiss, B. Ferdman, R. Orange and Y. Shechtman, “Multiplexed PSF engineering for 3D multicolor particle tracking“, arXiv (2021)
2020
Y. Shechtman, “Recent advances in point spread function engineering and related computational microscopy approaches: from one viewpoint“, Biophysical Reviews (2020)
E. Nehme* , B. Ferdman*, L. E. Weiss, T. Naor, D. Freedman, T. Michaeli and Y. Shechtman, “Learning an optimal PSF-pair for ultra-dense 3D localization microscopy“, arXiv (2020). (*Equal Contribution)
R. Gordon-Soffer, L. E. Weiss, R. Eshel, B. Ferdman, E. Nehme, M. Bercovici, and Y. Shechtman, “Microscopic scan-free surface profiling over extended axial ranges by point-spread-function engineering“, Science Advances 6, 44 (2020)
E. Nehme , D. Freedman, R. Gordon, B. Ferdman, L. E. Weiss, O. Alalouf, T. Naor, R. Orange, T. Michaeli and Y. Shechtman, “DeepSTORM3D: dense 3D localization microscopy and PSF design by deep learning“, Nature Methods 17, 734–740 (2020)
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L.E. Weiss, Y. S. Ezra, S. E. Goldberg, B. Ferdman, O. Adir, A. Schroeder, O. Alalouf, Y. Shechtman, “Three-dimensional localization microscopy in live flowing cells” Nature Nanotechnology 15, 500–506 (2020).
*** See also News & Views in Nature Nanotechnology and Nature Bioengineering blog post
2019
N. Granik, L.E. Weiss, E. Nehme, M. Shalom, M. Chein, E. Perlson, Y. Roichman, Y. Shechtman, “Single particle diffusion characterization by deep learning“ Biophysical Journal (2019).
E. Hershko*, L.E. Weiss*, T. Michaeli, Y. Shechtman, “Multicolor localization microscopy and point-spread-function engineering by deep learning“, Optics Express 27, 5, 6158-6183 (2019). (*Equal Contribution)
2018
B. Ferdman*, L.E. Weiss*, O. Alalouf, Y. Haimovich, Y. Shechtman ,“Ultrasensitive refractometry via supercritical angle fluorescence“, ACS Nano, 12, 11892-11898 (2018). (*Equal Contribution)
*** See also ACS Nano perspective (12/2018)
L.E. Weiss, T. Naor, and Y. Shechtman, “Observing DNA in live cells”, Biochemical Society Transactions (2018).
M. Backlund, Y. Shechtman, and R.L Walsworth “Fundamental precision bounds for three-dimensional optical localization microscopy with Poisson statistics“, Physical Review Letters, 121, 023904 (2018)
E. Nehme, L.E. Weiss, T. Michaeli, and Y. Shechtman, “Deep-STORM: Super Resolution Single Molecule Microscopy by Deep Learning“, Optica 4, 458-464 (2018).
*** See also Nature Methods highlight (6/2018).
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2017 and earlier
Y. Shechtman, A-K Gustavsson, P. N. Petrov, E. Dultz, M.Y. Lee, K. Weis, and W.E. Moerner, “Observation of live chromatin dynamics in cells via 3D localization microscopy using Tetrapod point spread functions“, Biomedical Optics Express 8, 5735-5748 (2017).
P. N. Petrov, Y. Shechtman, and W.E. Moerner, “Measurement-based estimation of global pupil functions in 3D localization microscopy“, Optics Express 25, 7 (2017).
A. von Diezmann, Y. Shechtman, and W.E. Moerner, “Three-Dimensional Localization of Single Molecules for Super-Resolution Imaging and Single-Particle Tracking“, Chemical Reviews (2017).
Y. Shechtman, L.E. Weiss, A.S. Backer, M.Y. Lee, and W.E. Moerner, “Multicolour localization microscopy by point-spread-function engineering“,Nature Photonics 10, (2016).
*** See also Nature Methods highlight (9/2016).
D. Oren, Y. Shechtman, M. Mutzafi, Y. C. Eldar, and M. Segev, “Sparsity-based recovery of three-photon quantum states from two-fold correlations“, Optica 3, 3 (2016).
W.E. Moerner, Y. Shechtman, Q. Wang, “Single-Molecule Spectroscopy and Imaging Over the Decades“,Faraday Discussions, (2015).
P. Sidorenko, O. Kfir, Y. Shechtman, A. Fleischer, Y. C. Eldar, M. Segev, and O. Cohen, “Sparsity-based super-resolved coherent diffraction imaging of one-dimensional objects“, Nature Communications 6, (2015).
M. Mutzafi, Y. Shechtman, Y. C. Eldar, O. Cohen, and M. Segev, “Sparsity-based Ankylography for Recovering 3D molecular structures from single-shot 2D scattered light intensity“, Nature Communications 6, (2015).
Y. Shechtman, L.E. Weiss, A.S.Backer, S.J. Sahl, and W.E. Moerner, “Precise 3D scan-free multiple-particle tracking over large axial ranges with Tetrapod point spread functions“, Nano Letters 15 (6), 4194-4199 (2015).
Y. Shechtman, Y.C. Eldar, O. Cohen, H.N. Chapman, J. Miao and M. Segev, “Phase retrieval with application to optical imaging“, IEEE Signal Processing Magazine 32, 2,87-109 (2015).
Y. Shechtman, S.J. Sahl, A.S.Backer and W.E. Moerner, “Optimal point spread function design for 3D imaging“, Physical Review Letters 113, 133902 (2014).
Y. Shechtman, A. Beck, and Y. C. Eldar, “GESPAR: Efficient phase retrieval of sparse signals“, IEEE Transactions on Signal Processing 62, 4, 928-938 (2014).
Y. Shechtman, E. Small, Y. Lahini, M. Verbin, Y.C. Eldar, Y. Silberberg and M. Segev, “Sparsity-based super-resolution and phase-retrieval in waveguide arrays“, Optics Express 21, 20, 24015-24024 (2013).
Y. Shechtman, Y. C. Eldar, O. Cohen, and M. Segev, “Efficient coherent diffractive imaging for sparsely varying objects“, Optics Express 21, 5, 6327-6338 (2013).
A. Szameit*, Y. Shechtman*, E. Osherovich*, E. Bullkich, P. Sidorenko, H. Dana, S. Steiner, E. B. Kley, S. Gazit, T. Cohen-Hyams, S. Shoham, M. Zibulevsky, I. Yavneh, Y. C. Eldar, O. Cohen, and M. Segev,”Sparsity-based single-shot subwavelength coherent diffractive imaging“, Nature Materials 11 (5), 455-459 (2012)
*Equal Contribution
R. Keil, Y. Lahini, Y. Shechtman, M. Heinrich, R. Pugatch, F. Dreisow, A. Tünnermann, S. Nolte, A. Szameit, “Perfect imaging through a disordered waveguide lattice“, Optics Letters 37 (5), 809-811 (2012).
Y. Lahini, Y. Bromberg, Y. Shechtman, A. Szameit, D.N. Christodoulides, R. Morandotti, and Y. Silberberg, “Hanbury Brown and Twiss correlations of Anderson localized waves“, Physical Review A, 84, 41806 (2011).
Y. Shechtman, Y.C. Eldar, A. Szameit, and M. Segev, “Sparsity based sub-wavelength imaging with partially incoherent light via quadratic compressed sensing“, Optics Express 19, 16, 14807-24822 (2011).
Y. Shechtman, S. Gazit, A. Szameit, Y.C. Eldar, and M. Segev, “Super-resolution and reconstruction of sparse images carried by incoherent light“, Optics Letters 35(8), 1148-1150 (2010).
* See also: A. Szameit, Y. Shechtman, S. Gazit, Y. C. Eldar, and M. Segev, “Sparsity-based reconstruction of sub-wavelength images from their optical far-field”, in “Optics in 2010,” Optics Photonics News 21, 26 (2010).