Publications, preprints, and patents

2020
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• From single particle motion to the structure of biological systems
  Yael Roichman, Europhysics News 51, 45 - 47 (2020).

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• Experimental realization of diffusion with stochastic resetting
  Ofir Tal-Friedman, Arnab Pal, Amandeep Sekhon, Shlomi Reuveni, and Yael Roichman, arXiv:2003.03096 , J. Phys. Chem. Lett. 11 , 7350−7355 (2020).
  
   

• Kinetics of actin networks formation measured by time resolved particle-tracking microrheology,
  Maayan Levin, Raya Sorkin, David Pine, Rony Granek, Anne Bernheim-Groswasser, and Yael Roichman, arXiv:2003.07047, Soft Matter 16 7869-7876 (2020).
  
   

• Disorder induced Fickian, yet non-Gaussian diffusion in heterogeneous media,
  Indrani Chakraborty and Yael Roichman, Physical Review Research 2, 022020 (2020). arXiv:1909.11364
  
   

• The Airy distribution: experiment, large deviations and additional statistics,
  Tal Agranov, Pini Zilber, Naftali R. Smith, Tamir Admon, Yael Roichman, Baruch Meerson, Physical Review Research 2, 013174 (2020). arXiv:1908.08354 .
  
   

• Auxiliary Optomechanical Tools for 3D Cell Manipulation,
  Ivan Shishkin, Hen Markovich, Yael Roichman and Pavel Ginzburg, Micromachines 11, 90 (2020).
  
   

• Live cell single molecule tracking and localization microscopy of bioorthogonally labeled plasma membrane proteins,
  Andres I. König, Raya Sorkin, Ariel Alon, Dikla Nachmias, Kalyan Dhara, Guy Brand, Ofer Yifrach, Eyal Arbely, Yael Roichman, Natalie Elia, Nanoscale 12, 3236 (2020).
  
  
                                  2019
   

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• Real‐time In Situ Monitoring of a Tunable Pentapeptide Gel–Crystal Transition,
  Tom Guterman, Maayan Levin, Sofiya Kolusheva Davide Levy, Nadav Noor, Yael Roichman, Ehud Gazit, Angewandte Chemie 58, 2-9 (2019).
  
   

• Multiple peaks in the displacement distribution of active random walkers,
  Eial Teomy, Yael Roichman, Yair Shokef, JSTAT 2019, 113209 (2019). arXiv:1908.07242
  
   

• Nanoparticle mobility over a surface as a probe for weak transient disordered peptide-peptide interactions,
  Indrani Chakraborty, Gil Rahamim, Ram Avinery, Ram, Yael Roichman, Roy Beck, Nano Letters 19, 6524-6534 (2019).
  
   

• Flow arrest in the plasma membrane,
  Michael Chein, Eran Perlson, Yael Roichman, Biophysical Journal 117, 810-816 (2019). (featured in New and Notable, Biophysical Journal)
  
   

• Single particle diffusion characterization by deep learning,
  Naor Granik, Lucien E.Weiss, Elias Nehme, Maayan Levin, Michael Chein, Eran Perlson, Yael Roichman, Yoav Shechtman, Biophysical Journal 117, 185-192 (2019).
  
   

• Optical trapping below the diffraction limit with a tunable beam waist using super-oscillating beams,
  Harel Nagar, Tamir Admon, Doron Goldman, Amir Eyal, and Yael Roichman , Optics Letters 44, 2430-2409 (2019). Cover in Nature Photonics.
  
   

• Deep penetration fluorescence imaging through dense yeast cells suspensions using Airy beams,
  Harel Nagar, and Yael Roichman, Optics Letters 44, 1896-1899 (2019).
  
   

• Structural changes in nanoparticle-hydrogel composites at very low filler concentrations,
  Maayan Levin, Adar Sonn-Segev, and Yael Roichman, Journal of Chemical Physics 150, 064908 (2019).
  
  
                                         2018
  
   

• Fluorescent Tracking of the Endoplasmic Reticulum in Live Pathogenic Fungal Cells,
  Raphael I. Benhamou, Qais Z. Jaber, Ido M. Herzog, Yael Roichman, and Micha Fridman, ACS chemical biology 13, 3325-3332 (2018).
  
   

• Experimental Realization of an Information Machine with Tunable Temporal Correlations,
  Tamir Admon, Saar Rahav, and Yael Roichman, Physical Review Letters 121, 180601 (2018).
   

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• Particle trapping and conveying using an optical Archimedes' screw,
  Barak Hadad, Sahar Froim, Harel Nagar, Tamir Admon, Yaniv Eliezer, Yael Roichman, Alon Bahabad, Optica 5, 5551-556 (2018).
  
   

• Non-diffracting beams for label-free imaging through turbid media,
  Harel Nagar, Elad Dekel, Dror Kasimov, and Yael Roichman, Optics Letters 43,
  190-193 (2018).
  
  
                                                2017
   

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• Scale dependence of mechanics of active gels with increasing motor concentration,
  Adar Sonn-Segev, Anne Bernheim-Groswasser, and Yael Roichman, Soft Matter 13, 7352-7359 (2017).
  
   

• Real-time imaging of the azole class of antifungal drugs in live candida cells,
  Raphael I. Benhamou, Maayan Bibi, Kfir B. Steinbuch, Maayan Levin, Yael Roichman, Judith Berman, and Micha Fridman, ACS Chemical Biology 12, 1769-1777 (2017).
   

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• Generalized fluctuation-dissipation theorem as a test of Markovianity of a system,
  Lucian Willareth, Igor M. Sokolov, Yael Roichman, and Benjamin Lindner, European Physics Letters 118, 20001-p1 (2017).
  
   

• Angular phase unwrapping of optically thick objects with a thin dimension
  Gili Dardikman, Simcha Mirsky, Mor Habaza , Yael Roichman and Natan T. Shaked, Optics Express. 25, 3347-3357 (2017).
  
   

• Dynamics in Steady State In Vitro Acto-Myosin networks,
  Adar Sonn-Segev, Anne Bernheim-Groswasser, and Yael RoichmanJournal of Physics: Condenced Matter 29, 163002 (2017). arXiv:1611.09551 [cond-mat.soft].
  
   

• Particle manipulation beyond the diffraction limit using structured super-oscillating light beams,
  Brijesh Kumar Singh, Harel Nagar, Yael Roichman, and Ady Arie, Light: Science & Applications: 6, e17050 (2017). arXiv:1609.08858 [physics.optics].
  
  
                                                 2016
  
   

• Diffusion of a nano-wire through an obstacle field,
  Dror Kasimov, Tamir Admon, and Yael Roichman, PRE rapid communications, 93, 050602(R) (2016). arXiv:1605.01500 [cond-mat.soft].
  
   

• Tunable photonic crystals by holographic optical tweezers,
  Maya Yevnin, Yael Roichman and Jacob Scheuer, Proceedings of the Slow Light, Fast Light, and Opto-Atomic Precision Metrology IX conference (2016).
  
  
                                         2015
  
   

• Structure and dynamics of a layer of sedimented particles,
  A. Sonn-Segev, J. Blawzdziewicz, E. Wajnryb, M. L. Ekiel-Jezewska, HD, Y. Roichman, Journal of Chemical Physics 143, 074704 (2015), arXiv:1504.03072 [cond-mat.soft]
  
   

• A new paradigm for parallelized STED microscopy,
  Omer Wagner, Ori Cheshnovsky, and Yael Roichman, arXiv:1504.05017 [physics.optics].
  
   

• Tomographic phase microscopy with 180° rotation of live cells in suspension by holographic optical tweezers.
  Mor Habaza, Barak Gilboa, Yael Roichman, and Natan T. Shaked, Optics Lett., 40, 1881-1884 (2015).
  
  
                                             2014
  
   

• Extracting the dynamic correlation length of actin networks from microrheology experiments. Adar Sonn-Segev, Anne bernheim-Groswasser, and Yael Roichman, Soft Matter, 10, pp. 8324-8329 (2014).arXiv:1408.5008 [cond-mat.soft].
  
   

• Collective excitations of hydrodynamically coupled driven colloidal particles.
  Harel Nagar and Yael Roichman, Phys. Rev. E. 90, 042302 (2014). arXiv:1312.6576 [cond-mat.soft] .
  
   

• Viscoelastic Response of a Complex Fluid at Intermediate Distances,
  Adar Sonn-Segev, Anne bernheim-Groswasser, Haim Diamant, and Yael Roichman, Phys. Rev. Lett. 112, 088301 (2014), arXiv:1307.4278 [cond-mat.soft] .

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                                                  2013

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• Independent and simultaneous three-dimensional optical trapping and imaging.
  Maya Yevnin, Dror Kasimov, Yael Gluckman, Yuval Ebenstein, and Yael Roichman, Biomedical Optics Express, 4, 2087-2094 (2013).
  
   

• Myosin II does it all: Assembly, Remodeling, and Disassembly of actin networks are governed by myosin II activity, Yaron ideses, Adar Sonn-Segev, Yael Roichman, and Anne Bernheim-Groswasser, Soft matter, 9, 7127-7137 (2013).
  
   

• Di-alkylated paromomycin derivatives: Targeting the membranes of Gram positive pathogens that cause skin infections,
  Yifat Berkov-Zrihen, Ido M. Herzog, Mark Feldman, Adar Sonn-Segev, Yael Roichman, Micha Fridman, Bioorg. Med. Chem. , 21, 3624-3631 (2013).

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• Accurate holographic imaging of colloidal particle pairs by Rayleigh-Sommerfeld reconstruction,
  David Kapfenberger, Adar Sonn-Segev, and Yael Roichman, Optics Express, 21 , pp. 12228-12237, (2013).
  
  
                                            2011
   

• Two-dimensional optical thermal ratchets based on Fibonacci spirals,
  Ke Xiao, Yael Roichman, and David G. Grier, Phys. Rev. E., 84, 011131, (2011).
  
   

• Hydrodynamic Pair Attractions between Driven Colloidal Particles,
  Yulia Sokolov, Derek Frydel, David G. Grier, Haim Diamant, and Yael Roichman, Phys. Rev. Lett., 107, 158302, (2011). arXiv:1109.2707 [cond-mat.soft].
  
   

• Targeting Anthracycline-Resistant Tumor Cells with Synthetic Aloe-Emodin Glycosides,
  Elinor Breiner-Goldstein, Zoharia Evron, Michael Frenkel, Keren Cohen, Keren Nir Meiron, Dan Peer, Yael Roichman, Eliezer Flescher, and Micha Fridman, ACS Med. Chem. Lett, 2, 528-531, (2011).
  
  
                                   2008 and before

• Optical forces arising from phase gradients,
  Yohai Roichman, Bo Sun, Yael Roichman, Jessie Amato-Grill and David G. Grier, Phys. Rev. Lett., 100, 013602, (2008). arXiv:cond-mat/0703543 [cond-mat.soft]

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• Anomalous collective dynamics in optically driven colloidal rings,
  Y. Roichman, G. M. Zaslavsky and D. G. Grier, Physical Review E 75, 020401(R) (2007).
  
   

• Colloidal transport through optical tweezer arrays,
  Y. Roichman, V. Wong and D. G. Grier, Physical Review E 75, 011407 (2007). arXiv:cond-mat/0609276 [cond-mat.soft]
  
   

• Manipulation and assembly of nanowires with holographic optical traps,
  R. Agarwal, K. Ladavac, Y. Roichman, G. Yu, C. M. Lieber and D. G. Grier, Optics Express 13, 8906-8912 (2005). arXiv:cond-mat/0509297 [cond-mat.soft]
  
   

• Holographic optical trapping,
  D. G. Grier and Y. Roichman, Applied Optics 45, 880-887 (2006). arXiv:cond-mat/0506284 [cond-mat.soft]
  
   

• Optimized holographic optical traps,
  M. Polin, K. Ladavac, S. Lee, Y. Roichman and D. G. Grier, Optics Express 13, 5831-5845 (2005). arXiv:cond-mat/0504203 [cond-mat.soft].
  
   

• Holographic assembly of quasicrystalline photonic heterostructures,
  Y. Roichman and D. G. Grier, Optics Express 13, 5434-5439 (2005).arXiv:cond-mat/0506283 [cond-mat.soft]
  
   

• Propagation of interacting force chains in the continuum limit,
  Y. Roichman, I. Yavneh, and D. Levine, Phys. Rev. E, 70, Art. no. 061301 (2004). arXiv:cond-mat/0408179 [cond-mat.soft]
  
   

• Percolation of Electrical Conductivity in Solution-Cast Blends Containing Polyaniline,
  Y. Roichman, M. S. Silverstein , A. Siegmann and M. Narkis, J. Macromol. Sci., B38, 145-161 (1999).

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• Polyaniline Synthesis: Influence of Powder Morphology on Conductivity of Solution-Cast Blends with Polystyrene.,
  Y. Roichman, G.I Titelman, M. S. Silverstein , A. Siegmann and M. Narkis, Synthetic Metals, 98, 201-209 (1999).
  
  
                    Patents and patent application
   

• Manipulation of objects in potential energy landscapes, D. G. Grier, M. Polin, S. Lee, Y. Roichman and K. Ladavac US Patent 7,973,275, 2011, WO Patent 2,007,084,114,.

• System and method for processing nanowires with holographic optical tweezers, D. G. Grier, R. Agarwal, G. Yu, C. M. Lieber, K. Ladavac and Y. Roichman, US Patent 7,772,543, 2010, WO Patent 2,007,084,114, 2007.

• Assembly of quasicrystalline photonic heterostructures, D. G. Grier, Y. Roichman, W. Man, P. M. Chaikin and P. J. Steinhardt, US Patent App. 13/163,460, 2011, WO Patent 2,007,009,046, 2007, EP Patent 1,902,335, 2008.

• System for applying optical forces from phase gradients, Y. Roichman, B. Sun, Y. Roichman, J. Amato-Grill and D. G. Grier, US Patent 8,174,742, 2012.

• Method and System for imaging internal medium, H. Nagar, E. Dekel, D. Kasimov, T. Kolatt, Y. Roichman, US patent granted 8/2020.