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Current Researchers @ ECT* |
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Massimiliano Alvioli |
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Many-body calculations of ground state of complex nuclei with nucleon-nucleon correlations and application to nuclear reactions; final state interactions in A(e,e'p)X within the Glauber multiple scattering method. Monte Carlo approach for the calculation of correlated nucleon configurations for general purpose event generators. |
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Daniele Binosi |
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High energy physics: Formal aspects of gauge quantum filed theories with or without spontaneous symmetry breaking; in particular construction of gauge independent and gauge invariant Green's functions (through the so-called pinch technique). Optics: formation of solitonic patterns in photonic crystal fibers. Software: Developer of JaxoDraw (visit http://altair.ific.uv.es/~JaxoDraw). |
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Marco Cristoforetti |
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Development of phenomenological models to investigate the QCD phase diagram. Lattice QCD at zero and finite temperature. |
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Alexis Diaz Torres |
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Quantum decoherence in nuclear collision dynamics, Interlacing nuclear structure and reaction physics, Coupling assisted quantum tunnelling and formation of new elements in reactions induced by heavy ions and rare isotopes. Time-dependent quantal approaches, such as the coupled-channels density-matrix method, are used. |
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Vincent Mathieu |
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Spectroscopy of exotic hadrons (glueballs and hybrid mesons) ; Gluon mass generation ; Parton amplitudes.
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Stefano Melis |
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The study of hadronic physics and in particular to the subjects of the transverse partonic momenta and the spin asymmetries in collisions at high energies. Keywords: Spin asymmetries. Proton Spin structure. Transverse momentum dependent (polarized) parton distribution functions (TMDs).
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Laura Munoz |
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Quantum Chaos and Random Matrix Theory: Spectral Statistics based on Time Series Analysis, which allows to characterize Quantum Chaos by a 1/f noise; applied to nuclei, quantum billiards, many-body systems (embedded ensembles), missing levels in spectra (in particular, missing resonances in the low-lying hadron spectra), gamma-hadron separation methods in extensive air showers from cosmic rays. |
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Achim Richter |
Scientific Activity: |
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Nuclear Reactions with light and Heavy Ions;
Symmetries and Invariance Principles;
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Luigi Scorzato |
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Quantum Field Theories on a Lattice; QCD with light quarks; Chiral fermions; Numerical Stochastic Perturbation Theory; Chiral Perturbation Theory; QCD at finite Temperature and Density
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Pavel Stransky |
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Classical and quantum chaos in nuclear collective models (geometric collective model and interacting boson model) and in Hamiltonian systems in general, study on the shape of nuclei (the prolate shape predominance), excited state quantum phase transitions, medical physics and complex systems (analysis of physiological time series). |
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Dionysis Triantafyllopoulos |
Scientific Activity: |
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Parton saturation in Quantum Chromodynamics (Color Glass Condensate). Applications to collider physics. Gauge theories at strong coupling and the AdS/CFT correspondence. |
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