0202 - Atomic, Molecular, Nuclear, Particle and Plasma Physics
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This collection contains Flinders' staff research in Atomic, Molecular, Nuclear, Particle and Plasma Physics, reportable as part of Excellence in Research for Australia (ERA), from 2001-
Items are added automatically from Flinders University Research Services Office.
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Browsing 0202 - Atomic, Molecular, Nuclear, Particle and Plasma Physics by Title
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Item Absolute elastic cross-sections for low-energy electron scattering from tetrahydrofuran(2007) Sullivan, James; Brunger, Michael James; Buckman, Stephen J; Vizcaino, V; Colyer, Christopher JohnItem Absolute Electron Scattering Cross Sections for the CF2 Radical(2008) Buckman, Stephen J; Winstead, Carl; Maddern, Todd Michael; Hargreaves, Leigh Randall; Francis-Staite, Jessica; Brunger, Michael James; McKoy, VincentItem Anomalous behaviour in NO-Ar () photodissociation near threshold: A significant contribution from thermally populated states(2008) Lawrance, Warren Donald; Holmes-Ross, Heather LynnItem An apparatus for measuring absolute electron scattering cross sections for molecular radicals(2008) Bolorizadeh, Mohammad Agha; Brunger, Michael James; Maddern, Todd Michael; Hargreaves, Leigh Randall; Buckman, Stephen JItem The Bethe-Salpeter equation and the Low Energy Theorems for pion-nucleon scattering(2003) Afnan, Iraj Ruhi; Lahiff, A DItem Characterisation of vacuum (physical vapour) deposited Lumogen optical films(Australian Institute of Physics, 2005) Quinton, Jamie Scott; Deslandes, Alec; Wedding, A BruceItem Closed-form expressions for state-to-state charge-transfer differential cross sections in a modified Faddeev three-body approach(2007) Ghanbari Adivi, E; Brunger, Michael James; Bolorizadeh, Mohammad Agha; Campbell, LaurenceItem Coexistence of 1,3-butadiene conformers in ionisation energies and Dyson orbitals(2005) Saha, Saumitra; Wang, Feng; Falzon, Chantal; Brunger, Michael JamesThe minimum-energy structures on the torsional potential-energy surface of 1,3-butadiene have been studied quantum mechanically using a range of models including ab initio Hartree-Fock and second-order Møller-Plesset theories, outer valence Green’s function, and density-functional theory with a hybrid functional and statistical average orbital potential model in order to understand the binding-energy ionization energy spectra and orbital cross sections observed by experiments. The unique full geometry optimization process locates the s-trans-1,3-butadiene as the global minimum structure and the s-gauche-1,3-butadiene as the local minimum structure. The latter possesses the dihedral angle of the central carbon bond of 32.81° in agreement with the range of 30°–41° obtained by other theoretical models. Ionization energies in the outer valence space of the conformer pair have been obtained using Hartree-Fock, outer valence Green’s function, and density-functional statistical average orbital potentials models, respectively. The Hartree-Fock results indicate that electron correlation and orbital relaxation effects become more significant towards the inner shell. The spectroscopic pole strengths calculated in the Green’s function model are in the range of 0.85–0.91, suggesting that the independent particle picture is a good approximation in the present study. The binding energies from the density-functional statisticaly averaged orbital potential model are in good agreement with photoelectron spectroscopy, and the simulated Dyson orbitals in momentum space approximated by the density-functional orbitals using plane-wave impulse approximation agree well with those from experimental electron momentum spectroscopy. The coexistence of the conformer pair under the experimental conditions is supported by the approximated experimental binding-energy spectra due to the split conformer orbital energies, as well as the orbital momentum distributions of the mixed conformer pair observed in the orbital cross sections of electron momentum spectroscopy.Item Comment on "Light-front Schwinger model at finite temperature"(2004) Kvinikhidze, Alexander N; Blankleider, BorisItem Comment on 'Electron scattering and ionization of NO, N2O, NO2, NO3 and N2O5 molecules: theoretical cross sections'(2007) Brunger, Michael JamesItem A Comparison of Incompressible Limits for Resistive Plasmas(2004) Storer, Robin George; Dewar, R J; Macmillan, B FItem Cross sections and oscillator strengths for electron-impact excitation of the A1B1 electronic state of water(2007) Thorn, Penny Anne; Brunger, Michael James; Teubner, Peter John; Bolorizadeh, Mohammad Agha; Newell, W R; Kato, H; Hoshino, M; Tanaka, Hiroshi; Cho, Hyuck; Kim, Y.-K.; Diakomichalis, Nicole; Maddern, Todd MichaelItem Cross sections for electron impact excitation of the vibrationally resolved A1pi electronic state of carbon monoxide(2007) Kawahara, H; Hoshino, M; Tanaka, Hiroshi; Brunger, Michael James; Kato, H; Kim, Y.-K.Item Cross sectons for the electron impact excitation of the a3B1, b3A1, B1A1 dissociative electronic states of water(2007) Thorn, Penny Anne; Brunger, Michael James; Kato, H; Hoshino, M; Tanaka, HiroshiItem Crystallinity in lumogen optical thin films(Australian Institute of Physics, 2005) Deslandes, Alec; Wedding, A Bruce; Quinton, Jamie ScottItem Current Drive for rotamak plasmas(2004) Von Oertzen, G U; Storer, Robin GeorgeItem Deep inelastic scattering from A = 3 nuclei and the neutron structure function.(2003) Thomas, A W; Afnan, Iraj Ruhi; Bissey, F; Gomez, J; Katramatou, A T; Liuti, S; Melnitchouk, W; Petratos, G GItem An (e,2e) coincidence study of formic acid monomer and dimer(2008) Brunger, Michael James; Saha, Saumitra; Euripides, Peter; Nixon, Kate Louise; Lawrance, Warren Donald; Jones, Darryl Bruce; Wang, FengItem Elastic electron scattering from 3-hydroxytetrahydrofuran: experimental and theoretical studies(2008) Vizcaino, V; Roberts, Jason; Sullivan, James; Brunger, Michael James; Buckman, Stephen J; Winstead, Carl; McKoy, VincentItem Electron collisions with ethylene(2003) Tanaka, Hiroshi; Campbell, Laurence; Brunger, Michael James; Buckman, Stephen J; Jelisavcic, M; Kitajima, M; Lower, J; Panajotovic, R