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CMP
Credit: Jack Hobhouse

David Keen

Visiting Professor

Sub department

  • Condensed Matter Physics

Research groups

  • X-ray and neutron scattering
david.keen@physics.ox.ac.uk
Telephone: 01865 (2)72310
Clarendon Laboratory, room 106
  • About
  • Publications

Refinement of the Si?O?Si bond angle distribution in vitreous silica

Journal of Physics Condensed Matter IOP Publishing 17:5 (2005) s67

Authors:

MG Tucker, DA Keen, MT Dove, K Trachenko
More details from the publisher

Reverse Monte Carlo modelling of crystalline disorder

Journal of Physics Condensed Matter IOP Publishing 17:5 (2005) s15

Authors:

DA Keen, MG Tucker, MT Dove
More details from the publisher

Total scattering and reverse Monte Carlo study of the 105 K displacive phase transition in strontium titanate

Journal of Physics Condensed Matter IOP Publishing 17:5 (2005) s111

Authors:

Qun Hui, Matthew G Tucker, Martin T Dove, Stephen A Wells, David A Keen
More details from the publisher

High-pressure dissociation of silver mercury iodide, Ag2HgI4

Journal of Solid State Chemistry Elsevier 177:10 (2004) 3715-3720

Authors:

DC Parfitt, S Hull, DA Keen, W Crichton
More details from the publisher

Phonons from Powder Diffraction: A Quantitative Model-Independent Evaluation

Physical Review Letters American Physical Society (APS) 93:7 (2004) 075502

Authors:

Andrew L Goodwin, Matthew G Tucker, Martin T Dove, David A Keen

Abstract:

We describe a model-independent approach for the extraction of detailed lattice dynamics information from neutron powder diffraction data, based on a statistical analysis of atomistic configurations generated using reverse Monte Carlo structural refinement. Phonon dispersion curves for MgO extracted in this way are shown to reproduce many of the important features found in those determined independently using neutron triple-axis spectroscopy. By means of molecular dynamics simulations, we quantify the extent to which the diffraction data are sensitive to lattice dynamics in this system.
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