• Picture of Prof. Ron Milo

    Prof. Ron Milo

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    Environmental Sustainability Indicators
    Collaboration with:  Gidon Eshel - Bard College
    Synthetic carbon fixation pathways
    Cell Biology by the Numbers
    Collaboration with:  Rob Phillips - Caltech
    Design principles in energy and carbon fixation

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  • Picture of Prof. Mordehai Milgrom

    Prof. Mordehai Milgrom

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    Departure from Newtonian dynamics as an explanation of the dark-matter problem in galactic systems.
    High energy astrophysics: x-ray sources, gamma-ray sources.
    Black holes at the centers of galaxies

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  • Picture of Prof. Giora Mikenberg

    Prof. Giora Mikenberg

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    Trigger and data acquisition for LHC experiments.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson, D. Lellouch
    Search for Higgs bosons and SUSY particles at LHC.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson, D. Lellouch
    Search for Supersymmetry at LEP.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson, D. Lellouch
    Detector development and study of physics for LHC.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson, D. Lellouch
    Search for the standard-model and SUSY Higgs-bosons at LEP.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson, D. Lellouch
    Reconfigurable computing.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson, D. Lellouch
  • Picture of Prof. Gershom (Jan) Martin

    Prof. Gershom (Jan) Martin

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    Computational Quantum Chemistry
    Collaboration with:  D. Milstein, M. van der Boom, R. Neumann, M. A. Iron, L. Kronik
    High-accuracy ab initio thermochemistry: method development and applications.
    Development of novel, more universal, density functionals
    Application of density functional methods to organometallic systems, with special reference to homogenous catalysis.
    Ab initio prediction of rotation-vibration spectra beyond the harmonic approximation.
    Intermolecular interactions

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  • Picture of Prof. Yitzhak Maron

    Prof. Yitzhak Maron

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    Study of High-Energy-Density Plasmas:
    Experimental platform: Z-pinch systems, with and without externally applied magnetic fields
    Development of non-invasive spectroscopic diagnostic methods (from visible to x-rays) for matter under extreme conditions.
    Design and build up of fast (ns) and ultra-fast (sub ns) spectroscopic systems.
    Study of Instabilities and turbulence phenomena.
    Radiation transport in non-equilibrium plasmas.
    Conversion of electric and magnetic-field energy into particle kinetic energy and radiation.
    Close collaboration with Universities and National laboratories in the US (Cornell, Sandia National Laboratory, National Ignition Facility, and Naval Research Labs).
    High-Power-Laser matter interaction:
    Warm dense matter (solid-state density with temperatures of the order of the Fermi energy) formed by intense laser-matter interaction.
    Intense-laser-beam guiding by plasma channels.
    Experiments are performed in major European facilities: Jena University and HZDR - Drezden (Germany), Ѐcole polytechnique - LULI (France).

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  • Picture of Prof. Igor Lubomirsky

    Prof. Igor Lubomirsky

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    Ice Nucleation on Charged Surfaces (Electrofreezing)
    Collaboration with:  Prof. Meir Lahav
    Ice nucleation
    design of polar crystals and surfaces by symmetry reduction
    non-classical crystal growth
    surface and bulk pyroelectricity
    Fundamentals of electro-chemo-mechanical effects
    local symmetry reduction
    non-classical electrostriction
    ionic conductivity
    elastic interactions in solids with a large concentration of point defects

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  • Picture of Dr. Nir London

    Dr. Nir London

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    Discovery and design of specific covalent inhibitors
    Covalent personalized medicine for cancer
    Computational ligand/drug discovery

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  • Prof. Yaron Lipman

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    Geometric modeling, geometry processing, shape analysis, computer graphics, Discrete differential geometry
  • Picture of Prof. Koby Levy

    Prof. Koby Levy

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    The biophysics and evolution of post-translational modifications
    The mechanisms of protein-DNA recognition: understanding the driving forces for fast assembly

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  • Dr. Emmanuel Levy

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    Design of protein-based super assemblies
    Collaboration with:  Jonathan Doye (Oxford) Samuel Safran (WIS)
    New methods to detect and measure protein interactions
    Computational analyses of protein structure

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