• Picture of Prof. David Tannor

    Prof. David Tannor

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    Control of chemical reactions with tailored femtosecond pulses.
    Laser cooling of molecules.
    Quantum theory of dissipation and chemical reactions in solution.
    Semiclassical theory of reactive scattering.

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  • Picture of Prof. Joel Sussman

    Prof. Joel Sussman

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    3D Structure Funciton Studies or proteins related to Autism
    Collaboration with:  Israel Silman
    3D Structure Fucntions studies of Paraoxonase
    Collaboration with:  Dan Tawfik & Israel Silman
    Application of ultra rapid X-ray diffraction methods to study the enzymatic mechanism of AChE in real time.
    Collaboration with:  Israel Silman
    Structure based drug design studies on AChE and beta-secretase, including studies of complexes with transition state analogs; potential drugs for the treatment of Alzheimer's disease; and snake neurotoxins.
    Collaboration with:  Israel Silman
    X-ray structural analysis and molecular biology studies on proteins from the nervous system, including acetylcholinesterase (AChE), human, torpedo, drosophila, and krait; butyrylcholinesterase; neural cell adhesion proteins with sequence similarity to ACh
    Collaboration with:  Israel Silman
    3D Structure Funciton of proteins related to Gaucher Disease
    Collaboration with:  Tony Futerman & Israel Silman
    Visualization of 3D Protein Structures via new web based tool Proteopedia
    Collaboration with:  Jaime Prilusky & Israel Silman

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  • Picture of Dr. Ravid Straussman

    Dr. Ravid Straussman

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    Tumor microenvironment-mediated chemoresistance
    Tumor microbiome

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  • Picture of Prof. Adi Stern

    Prof. Adi Stern

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    Quantum interference phenomena in the fractional Quantum Hall effect. Electronic transport in strong magnetic fields.
    Non-abelian electronic states - quantum Hall states, topological superconductors and Majorana fermions.
    Fractionalized topological phases - how to construct them, how to measure them, and how to use them for topological quantum computation
    Low density two dimensional electronic systems.
    One dimensional electronic systems - electronic transport in the presence of interactions.
  • Picture of Prof. Victor Steinberg

    Prof. Victor Steinberg

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    Physical hydrodynamics, hydrodynamics of complex fluids, dynamics of single flexible micro-objects (molecules, membranes, etc) in complex fluid flows
    Hydrodynamics of polymer solutions, Elastic turbulence and Turbulent mixing by polymers.
    Hydrodynamics and rheology of complex fluids (vesicle, capsule, worm-like micelle, etc suspensions)
    Dynamics and conformation of single polymer molecule, vesicle, micro-capsule, etc in complex fluid flows.
    Measurement of velocity and vorticity fields by sound scattering in a turbulent flow.
    Convective turbulence in a fluid near the gas-liquid critical point.
    Microfluidics: mixing, cell separation, random flows.
    Development of non-invasive local sensors for measurements of stress field in fluid flow

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  • Picture of Prof. Joel Stavans

    Prof. Joel Stavans

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    Statistical Mechanics
    Single-Molecule Biological Physics.
    RNA interference
    Homologous recombination
    Genetic Networks and Systems Biology
    Regulation of gene expression by small RNAs
    Developmental decision making
    Noise and adaptation

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  • Picture of Prof. Rotem Sorek

    Prof. Rotem Sorek

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    Microbial genomics and systems biology
    CRISPR-Cas, an antiviral microbial defense system
    Interactions between bacteria and phages
    Communication between viruses
    RNA-mediated regulation in bacteria
    Computational discovery of novel natural antimicrobials

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  • Picture of Prof. Uzy Smilansky

    Prof. Uzy Smilansky

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    Mathematical methods for Archaeological research.
    Semi-classical quantization.
    Chaotic scattering.
    Quantum chaos.

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  • Prof. Israel Silman

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    Localization and anchorage to the plasma membrane of acetylcholinestera.
    Regulation of folding and assembly of acetylcholinesterase.
    Three-dimensional structure of acetylcholinesterase and acetylcholinesterase-anticholinesterase complexes.
  • Picture of Dr. Liran Shlush

    Dr. Liran Shlush

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    EPIC project
    Collaboration with:  John Dick Phillip Awadella

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