• Picture of Prof. David Milstein

    Prof. David Milstein

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    Organometallic chemistry and green catalysis
    Bond activation by pincer-type complexes
    Rational design of green and sustainable catalysis and synthetic methodology based on pincer-type metal complexes
    Sustainable, green energy based on catalytic design
    Hydrogen Storage. Design and development of novel Liquid Organic Hydrogen Carriers (LOHCs)
    Metal-Ligand Cooperation
    Oxidation of organic compounds using water as formal oxidant with H2 liberation

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  • Picture of Prof. Alexander Milov

    Prof. Alexander Milov

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    Data analysis from the ATLAS experiment
    Collaboration with:  ATLAS heavy ion-working group. Research groups in the USA, Czech Republic, Poland, Portugal, Chile.
    Analysis of heavy-ion data. Understanding the properties of QCD matter formed in such collisions. These projects involve state-of-the-art measurements of charged-hadron spectra and electroweak bosons, (primarily Z boson) produced in collisions of 208-Pb, 129-Xe, 16-O, and 1-H ions produced by the LHC at CERN. Features measured in these spectra tell us about the laws of QCD at extreme temperatures.
    Analysis of proton-proton data. Search for QCD matter in small systems. Unlike the previous category, this is a 'freelancing' analysis aiming at understanding how the QCD matter is being formed.
    Detector development
    Collaboration with:  INFN, MIT, Stony Brook, GSI
    Muon System for the NA60+ experiment at CERN. Designing, constructing, and maintaining a large-scale gaseous detector (100 sq.m.) to measure muons in NA60+ experiment. Eventually doing physics with the NA60+ data.
    Muon arm upgrade for the ECCE detector at Electron-Ion Collider at BNL. Working on a novel electron-ion collider in the USA. Although the design can be similar to the NA60+ design, this opens the capability to do new physics.
    Particle identification at sPHENIX and ECCE. Finding 'proof-of-principle' for new ideas in detector physics.

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  • Picture of Prof. Ron Milo

    Prof. Ron Milo

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    Quantifying the Anthropocene
    Anthropomass
    Global mammalian biomass
    Global arthropod biomass
    Cell Biology by the Numbers
    COVID-19
    Cellular turnover
    Design principles in energy and carbon fixation
    Synthetic autotrophy
    The C1 economy

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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.

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  • Picture of Prof. Giora Mikenberg

    Prof. Giora Mikenberg

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    Maintenece and construction of the upgrade of the ATLAS-MUON End-Cap MUON System
    The production of wedges containing 3 production quadruplets was assembled at CERN using parts to achieve precise positions that have been developed and constructed at the Weizmann Institute. Similarly the frames to support and positioning these quadruplets were developed at the Weizmann Institute and constructed by Israeli Industry. The positioning system of pins to allow precise assembly (to within 0.03mm on a structure of 4X2m²) is a major achievement. The operation of completing all wedges has come to an end and the New Small Wheel (NSW) detector has been installed in the ATLAS experiment, where it needs to operate until 2042. The large amount of data that needs to be transmitted in real-time by the this new detector (NSW) is performed by a network of more than 7000 optical fibers. This large fiber-optics network and inter-connection is part of the Israeli responsibility, and therefore I was personally involved in performing this connection underground and supervise its operation.
    Search for Higgs bosons and SUSY particles at LHC.
    Collaboration with:  E. Duchovni, E. Gross, L. Levinson,
  • 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, J. L. Sussman
    High-accuracy ab initio thermochemistry: method development and applications.
    Development of novel, more universal, density functionals, with particular emphasis on fifth-rung ("double hybrid") approaches
    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
    Computational molecular biology (focusing on acetylcholinesterase and on COVID19)

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  • Picture of Prof. Yitzhak Maron

    Prof. Yitzhak Maron

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    Study of High-Energy-Density Plasmas:
    Collaboration with:  Cornell Univ. , Princeton Univ. , Sandia National Laboratories , Naval Research Laboratory, University of Jena in Germany , HZDR Institute-Dresden , Michigan State Univ. , Univ. of CA in San Diego , LLNL- NIF facility
    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 investigating matter under extreme conditions. Development of measurements of high spectral , spatial , and temporal resolutions.
    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).
    Line shape computations in hot and dense plasmas
    Measurements of ion temperature and turbulence in current driven and radiation driven plasmas Measurements of magnetic fields in current driven implosions and in laser-matter interaction experiments
    High-Power-Laser matter interaction:
    Collaboration with:  University of Jena and HZDR-Dresden in Germany , LLNL - National Ignition facility, Sandia National Laboratories.
    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).
    Analysis of x-ray data from NIF

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  • Picture of Prof. Victor Malka

    Prof. Victor Malka

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    Laser Plasma Accelerators
    Collaboration with:  HZDR in Germany, Ecole Polytechnique in France, and UM from US
    Compact plasma based accelerators of electrons and protons
    Compact plasma based X ray beams
    Gas dynamics for targetry
    Medical applications (radiotherapy, X ray phase contrast imaging)

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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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