![]() Research in the group includes also studies of clustering phenomena in light nuclei, investigations of astrophysical nucleosynthesis through the interactions of exotic nuclear species, and development of advanced instrumentation for nuclear physics. Alan Wuosmaa probes the structure of neutron-rich nuclei far beyond the valley of stability through rare-isotope beam experiments at the Argonne National Laboratory, Fig. Nuclear structure beyond the valley of stability.The group plays a lead role in the development of Cherenkov counters for efficient identification of charged particles, and data analysis. 3) and B that will address orbital angular motion of quarks, and the spatial distribution of charge at small distance scales. Andrew Puckett’s group involved in experiments in JLab’s Halls A (Fig. The not yet well-explored 3D structure is also in the focus of Prof. The group leads the design and construction of major detector components. Kyungseon Joo's group spans from studies ofgeneralized and transverse momentum dependent distribution functions, over hadron formation, to the nucleon resonance N ∗ physics. Imaging of quarks inside nucleons is in the focus of the CLAS experiment, Fig. Richard Jones is active in the production and analysis of data from this experiment. 1) at Jefferson Lab uses a 9 GeV polarized photon beam to search for these exotic mesons, and map their spectrum. Somewhat higher in mass, a new class of unstable “exotic” mesons is expected to exist, in which the gluonic field is excited above its ground state configuration. The stable bound states in QCD consist of three quarks (baryons), three antiquarks (antibaryons), or quark-antiquark pairs (mesons) bound by a strongly interacting gluon field. We are committed to promoting an inclusive community in nuclear physics, and broadening the participation in nuclear physics among members of traditionally underrepresented groups. Our activities offer graduate and undergraduate students a vibrant and inclusive environment to engage in cutting edge research. Our group is involved in preparatory studies of the future Electron-Ion Collider. Our interests range from low-energy experiments with rare ions at Argonne National Lab, over medium-energy scattering of electrons and photons off protons and nuclei at Jefferson National Lab (JLab) to theoretical studies of the quark-gluon plasma probed in high energy reactions at Brookhaven National Lab (BNL) and Large Hadron Collider (LHC). The goal of our experimental and theoretical efforts is to advance the quantitative understanding of the rich variety of strong interaction phenomena in terms of quantum chromodynamics (QCD). Welcome to the home of the UConn Nuclear Physics Group! Nuclear Forces and Two Body Problem | 18. Transuranic and other Artificially Produced Elements | 17. Determination of Some Nuclear Properties | 9. Detection of Nuclear Radiations and their Measurements | 8. Alpha Particles and Alpha Radioactivity | 5. Nuclear Structure and General Properties of Nuclei | 3. Rutherford Scattering of alpha Particles and Nuclear Model of the Atom | 2. Though the main emphasis has been in the field of low energy nuclear physics, a brief discussion on elementary particle physics including high energy collisions has been included in view of the current trends. The topics included are the basic requirements of students aspiring to pursue a career in physics. Though the main emphasis has been in the field of low energy nuclear physics, a brief discussion on elementary particle physics including high energy collisions has been included in view of the current tr For undergraduate and postgraduate students of all Indian Universities. For undergraduate and postgraduate students of all Indian Universities.
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