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25Microstructure of the potentially multiferroic Fe/BaTiO3epitaxial interfacePhilosophical Magazine 92 (14): 1733-1747. 2012.
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33Morphology and orientation of iron oxide precipitates in epitaxial BiFeO3thin films grown under two non-optimized oxygen pressuresPhilosophical Magazine 90 (34): 4551-4567. 2010.
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18Grain size effect on twin density in as-deposited nanocrystalline Cu filmPhilosophical Magazine 93 (35): 4355-4363. 2013.
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19Microstructural evolution of [PbZrxTi1–xO3/PbZryTi1–yO3]nepitaxial multilayers –dependence on layer thicknessPhilosophical Magazine 90 (10): 1359-1372. 2010.
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30The evolution of polarization inside ultrathin PbTiO3films: a theoretical studyPhilosophical Magazine 95 (19): 2067-2077. 2015.
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14Microstructural characterization of bulk Ti3AlC2ceramicsPhilosophical Magazine 84 (28): 2969-2977. 2004.
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26Nanostructures and deformation mechanisms in a cryogenically ball-milled Al-Mg alloyPhilosophical Magazine 83 (26): 3065-3075. 2003.
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7In-situLorentz microscopy and Lorentz phase imaging of artificially structured Co arraysPhilosophical Magazine 84 (25-26): 2607-2617. 2004.
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7Electron-optical phase shift of magnetic nanoparticles I. Basic conceptsPhilosophical Magazine 83 (8): 1045-1057. 2003.The electron-optical phase shift induced in the electron beam due to the interaction with the electromagnetic field of magnetized nanoparticles of defined shape and arbitrary dimensions is calculated, presented and discussed. Together with the computable knowledge of vector potential and magnetic induction, including the demagnetizing field, and with the extension to more realistic geometries which will be presented in part II, this theoretical framework can be employed for the interpretation of…Read more
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8Electron-optical phase shift of magnetic nanoparticles II. Polyhedral particlesPhilosophical Magazine 83 (9): 1143-1161. 2003.A method is presented to compute the electron-optical phase shift for a magnetized polyhedral nanoparticle, with either a uniform magnetization or a closure domain . The method relies on an analytical expression for the shape amplitude, combined with a reciprocal-space description of the magnetic vector potential. The model is used to construct two building blocks from which more complex structures can be generated. Phase computations are also presented for the five Platonic and 13 Archimedean s…Read more