Yuval Ne'eman chair of theoretical nuclear physics
Research Interests:
QCD:
Small-xBj physics of the deep inelastic
processes and problem of pomeron. Physics of hard diffractive processes
at HERA, FNAL and LHC.
Effects of color coherence at high energies (color transparency , color
opacity phenomenona). Elaboration of theoretical methods of calculation.
Nuclear shadowing in photoproduction of light and heavy flavours at FNAL,CERN.
Confinement and spontaneously broken chiral symmetry in QCD
and in massless QED.
Quantum oscillations around classical solutions and Gribov copies.
Light-cone formulation of quantum field theory - QCD.
Elementary particles physics:
Structure of quantum field theories in the nonperturbative regime and the
origin of quark masses, Higgs mesons.
Strong and electroweak hard diffractive processes at Tevatron, LHC.
Possibility to search for new particles, oscillations of hidden bottom
mesons, CP violation at LHC collider.
Semiclassical solutions of Yang-Mills equations and behaviour of high energy
processes.
Neutrino astrophysics.
High energy nuclear physics.
Nonnucleon degrees of freedom in nuclei. Various phase -transitions in
nuclear matter and in heavy ion collisions. Role of fluctuations of color
in hadron-nucleus, nucleus-nucleus collisions.
Physical programs for high energy accelerators: EVA(BNL)experiment, CEBAF,
HERMES, ELPHA.
Light cone quantum mechanics of nuclei and low energy QCD
Lagrangean.
Manifestations of short range nucleon correlations in nuclei and nonnucleon
degrees of freedom in high energy processes.
Role of color screening phenomenon in the intermediate energy nuclear physics,in
the theory of superdence nuclear matter.
Physics of heavy ion collisions.
The role of color coherent effects in the AA collisions at high energies.
The possibility to regulate properties of produced hadron matter .
Possibility to observe different forms of superdense hadron matter in AA
collisions.
