High energy electron diffraction and microscopy peng l m dudarev s l whelan m j. Ionicity of nickel oxide: Direct determination by reflection diffraction of high 2019-02-05

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High Energy Electron Diffraction and Microscopy : L.M. Peng : 9780198500742

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

Dudarev, Langevin spin dynamics, Physical Review B83 2011 134418 M. Whelan, Correlations in Space and Time, and Dynamical Diffraction of High Energy Electrons by Crystals, Physical Review B48 1993 13408 - 13429 S. Crystal and diffraction symmetry ; 10. Matter 25 2013 395502 S. Diffuse and inelastic scattering and coherence effects are treated comprehensively both as a perturbation of elastic scattering and within the general multiple scattering quantum mechanical framework of the density matrix method. B 92, 134302 2015 X.

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High Energy Electron Diffraction and Microscopy : L.M. Peng : 9780198500742

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

The E-mail message field is required. Dynamical theory I - general theory 4. Image formation and the retrieval of the wave function ; 13. Dudarev, Ab initio scaling laws for the formation energy of nanosized interstitial defect clusters in iron, tungsten, and vanadium, Physical Review B 94, 024103 2016 M. He also received the 1998 Distinguished Scientist Award in Physical Sciences from the and the 1965 from the.

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Ionicity of nickel oxide: Direct determination by reflection diffraction of high

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

He held research posts at the University of Cambridge until 1966 when he moved to the University of Oxford. Magnetic origin of phase precipitations and kinetic phase transformations in irradiated Fe-Cr alloys from ab-initio modelling Dr. Dynamical theory I - general theory ; 4. Kirk, Simulations of weak-beam diffraction contrast images of dislocation loops by the many-beam Howie-Basinski equations, Philosophical Magazine 86 2005 4851-4881 T. Held visiting positions at Melbourne University, Max-Planck Institute for Solid State Research in Stuttgart and Hong-Kong Polytechnic University.

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Personal Homepages Oxford Materials

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

Useful practical data are summarised in tables including those of electron scattering factors for all the neutral atoms and many ions, and the temperature dependent Debye-Waller factors given for over 100 elemental crystals and compounds. Sutton, Confinement of interstitial cluster diffusion by oversized solute atoms, Proceedings of the Royal Society London A460 2004 2457—2475 S. Nguyen-Manh, The Effect of Electronic Structureon the Phases Present in High Entropy Alloys, Scientific Reports 7 2017 39803 S. Derlet, Interatomic potentials for materials with interacting electrons, Journal of Computational Materials Design 14 2008 Supplement 1, 129-140 P. Resonance effects in diffraction ; 7. Some useful mathematical relations ; 16.

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Personal Homepages Oxford Materials

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

Woo, Driven mobility of self-interstitial defects under electron irradiation, Nuclear Instruments and Methods B256 2007 253-259 M. Whelan, Robust Parametrization of Elastic and Absorptive Electron Atomic Scattering Factors, Acta Crystallographica A52 1996 257 - 276 S. Dudarev, Coherent motion of interstitial defects in a crystalline material, Philosophical Magazine 83 2003 3577 S. Repts 5 2015 16042 T. Matter 23 2011 206001 P.

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High

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

Dudarev, Constrained density functional for noncollinear magnetism, Physical Review B 91, 054420 2015 J. Zuo, Correlation effects in the ground state charge density of Mott insulating NiO: a comparison of ab-initio calculations and high-energy electron diffraction measurements, Physical Review B61 2000 2506-2512 M. Dudarev, Incoherent Scattering of Electrons by a Crystal Surface, Micron 28 1997 139-158 M. Dudarev, Million-atom molecular dynamics simulations of magnetic iron, Progress in Materials Science 52 2007 299-318 D. Dudarev, Lattice swelling and modulus change in a helium-implanted tungsten alloy: X-ray micro-diffraction, surface acoustic wave measurements, and multiscale modelling, Acta Materialia 89 2015 352—363 P. Diffuse and inelastic scattering and coherence effects are treated comprehensively both as a perturbation of elastic scattering and within the general multiple scattering quantum mechanical framework of the density matrix method.

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Personal Homepages Oxford Materials

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

D in Physics from Arizona State University in 1988, and spent the following six years working at the University of Oxford. Resonance effects in diffraction 7. Matter 28 2016 076002 Z. Dudarev, D, Nguyen-Manh, Magnetic Cluster Expansion model for high-temperature magnetic properties of iron and iron-chromium alloys, Journal of Applied Physics 109 2011 07E123 M. Dudarev, Monte Carlo study of thermodynamic properties and clustering in the bcc Fe-Cr system, Physical Review B75 2007 014208 P.

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Michael Whelan (scientist)

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

Archived from on 19 March 2011. P eng, Lian-M ao received his B. The book is hardbound in Oxford blue and looks like the scholarly reference that it is. Sublet, An integrated model for materials in a fusion power plant: transmutation, gas production, and helium embrittlement under neutron irradiation, Nucl. Sutton, Statistical model for diffusion-mediated recovery of dislocation and point-defect microstructure, Physical Review E 98 2018 043002 S. This book provides a comprehensive introduction to high energy electron diffraction and elastic and inelastic scattering of high energy electrons, with particular emphasis on applications to modern electron microscopy.

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Personal Homepages Oxford Materials

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

B 87, 064108 2013 M. Emeritus Fellow of Linacre College, Oxford. Fusion 57 2017 092008 I. Sand, A multi-scale model for stresses, strains and swelling of reactor components under irradiation, Nuclear Fusion 58 2018 126002 M. The book is hardbound in Oxford blue and looks like the scholarly reference that it is.

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Michael Whelan (scientist)

high energy electron diffraction and microscopy peng l m dudarev s l whelan m j

Rogozkin, Coherent Backscattering of Waves from a Random Medium: Exact Solution of the Albedo Problem, Physics Letters A144 1990 48-54. Image formation and the retrieval of the wave function 13. It nicely complements other reference books that are available. Peng, Scaling carbon nanotube complementary transistors to 5-nm gate lengths, Science 355 20 Jan 2017 271-276. Ventelon, M R Gilbert, L Proville, S L Dudarev, J Marian, G Bencteux and F Willaime, Interatomic potentials for modelling radiation defects and dislocations in tungsten, J. Van Swygenhoven, Optimization of the magnetic potential for α-Fe, J.

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