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    Environmental tracers in groundwaters and porewaters to understand groundwater movement through an argillaceous aquitard
    (Elsevier, 2017) Priestley, SC; Love, AJ; Post, V; Shand, P; Wohling, D; Kipfer, R; Payne, TE; Stute, M; Tyroller, L
    Inter-aquifer leakage through an aquitard can be an important component of groundwater flow and can occur by diffuse leakage or via preferential pathways along secondary permeability features. In order to properly characterize inter-aquifer leakage it is desirable to use both porewater from the aquitard in conjunction with a regional investigation of groundwater in the aquifers. The aim of this study was to characterize inter-aquifer leakage through a regionally extensive aquitard between the Great Artesian Basin (GAB) and the deeper Arckaringa Basin of Australia. Chloride concentrations in the aquitard porewater profile indicates that transport through the aquitard is dominated by diffusion, but there is evidence at t least one location for increased interaquifer leakage due to secondary permeability features. © 2017 The Author(s). Published by Elsevier B.V.
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    Interaction of the Mu-cyclohexadienyl radical with metallic (Au, Pt) nanoparticles in mesoporous silica
    (IOP Publishing, 2014-12-16) Xiao, J; Arseneau, DJ; Bridges, MD; Cortie, DL; Cottrell, SP; Dehn, M; Fleming, DG; Kelly, J; Kiefl, RF; MacFarlane, WA; MacLachlan, M; McKenzie, I
    μSR and ALCR techniques have been used to investigate the structure and dynamics of the Mu-cyclohexadienyl radical interacting with Au and Pt metal nanoparticles (MNPs) supported in mesoporous silica (SBA-15). Surprisingly, coherent precession signals are observed and the isotropic hyperfine coupling constants are almost the same in loaded and unloaded samples, implying that the electronic structure of MuC6H6 is only weakly perturbed by the presence of the MNPs. We propose the observed radicals are shielded from the metallic surfaces by a benzene coating on the MNPs. The Δ1 resonance is observable in MNP-loaded samples at higher temperatures than in the unloaded SBA-15. This is attributed to stronger binding of MuC6H6 to the benzene coated MNPs.. © The Authors - Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
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    Spin depolarization of Muonium in Mesoporous Silica
    (IOP Publishing, 2014-12-16) Dehn, MH; Arseneau, DJ; Bridges, MD; Buck, T; Cortie, DL; Cottrell, SP; Fleming, DG; Kelly, JA; MacFarlane, WA; MacLachlan, MJ; Morris, GD; McKenzie, I; Xiao, J; Kiefl, RF
    We report muon spin rotation/relaxation measurements of muonium in mesoporous silica (SBA-15) with a high specific surface area of 600 m2/g. Up to 70 percent of the incoming muons form muonium and escape efficiently into the open pores at all temperatures between 3 and 300K. We present evidence that the interaction with the silica surfaces involves both spin exchange and a transition to a diamagnetic state, possibly due to dangling bonds on the surface. At very low temperatures, below 20K, the interaction between muonium and the silica surfaces is suppressed due to a He film coating the surfaces. These results indicate that it should be possible to use muonium to probe the surfaces of uncapped nanoparticles supported in silica. © 2014 The Authors - Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
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    β-NMR of 8Li+ in rutile TiO2
    (IOP Publishing, 2014-12-16) McFadden, RML; Cortie, DL; Arseneau, DJ; Buck, TJ; Chen, CC; Dehn, MH; Dunsiger, SR; Kiefl, RF; Levy, CDP; Li, C; Morris, GD; Pearson, MR; Samuelis, D; Xiao, J; Maier, J; MacFarlane, WA
    We report preliminary low-energy β-NMR measurements of 8Li+ implanted in single crystal rutile TiO2 at an applied field of 6.55 T and 300 K. We observe a broad 12 kHz wide quadrupole split resonance with unresolved features and a sharp component at the Larmor frequency. The line broadening may be caused by overlapping multi-quantum transitions or motion of 8Li+ on the scale of its lifetime (1.21 s). We also find spin-lattice relaxation that is relatively fast compared to other wide band gap insulators. The origin of this fast relaxation is also likely quadrupolar and may be due to anisotropic 8Li+ diffusion. © The Authors CC-BY 3.0
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    The role of metallurgical solid state phase transformations on the formation of residual stress in laser cladding and heating
    (Trans Tech Publications, 2014-02) Cottam, R; Luzin, V; Thorogood, KJ; Wong, YC; Brandt, M
    There are two major types of solid state phase transformations in metallic materials; the formation of second phase particles during heat treatments, and the transformation of the matrix from one crystalline packing arrangement to another during either heating or cooling. These transformations change the spacing between adjacent atoms and can thus influence the residual stress levels formed. The heating and cooling cycles of materials processing operations using lasers such as cladding and melting/heating, can induce phase transformations depending on the character of the material being processed. This paper compares the effects of the different phase transformations and also the influence of the type of laser processing on the final residual stress formed. The comparisons are made between laser clad AA7075, laser clad Ti-6Al-4V and laser melted nickel-aluminium bronze using neutron diffraction and the contour method of measuring residual stress. © 2014 Trans Tech Publications.