American Museum of Natural History, New York, Tuesday 29th March 2003 at 1pm. "Beyond Classical Rietveld Analysis - using Le Bail fitting of X-ray Powder Diffraction data to help answer the questions of the world: can the Earth's outer core contain Oxygen?" by L. M. D. Cranswick CCP14 - School of Crystallography, Birkbeck University of London, Malet Street, Bloomsbury, London, WC1E 7HX, U.K. (presently visiting the Geochemistry department at the Lamont-Doherty Earth Observatory of Columbia University) E mail: l.m.d.cranswick@dl.ac.uk WWW: http://www.ccp14.ac.uk/ ABSTRACT To investigate a scientific problem may require undertaking a relatively convoluted route. This can involuntarily involve people within the intricacies of methods that may not seem related to the overall problem of interest. However, if the time is not taken to ensure the best choice and use of an analytical method; the asking of relevant scientific questions may be possible, but not of obtaining robust analytical results to credibly support the conclusions. This talk will elaborate on powder X-ray diffraction analysis with an earth sciences (planetary core/meteoritic cores(?)) theme. The Le Bail method [1] is a way of performing whole profile Rietveld fitting [2] to powder diffraction data without the need for atomic structure information (just a cell and a trial spacegroup). Examples of the power of the Le Bail method include the ability for whole profile unit cell refinement involving overlapping reflections, extraction of HKLs for structure solution and spacegroup determination. Le Bail fitting is considered as standard functionality in modern Rietveld software[3]. Formerly the domain of single crystal diffraction, it has been possible to solve crystal structures from powder diffraction data for quite some time; of which the Le Bail method was the main breakthrough which made this possible[4]. Using Le Bail fitting on a modern PC computer, in a matter of seconds a whole X-ray diffraction profile can be reliably and accurately fitted. This makes Le Bail fitting suitable for where a large amount of data has been recorded and requires accurate analysis. A recent example showing the power of the Le Bail method by its use in providing high quality unit cell volume data necessary in the determination of the volume of Oxygen in the Earth's outer core.[5] [6] This, and the use of synchrotron based high pressure energy dispersive powder X-ray diffraction (EDX) will be the focus of this talk. References: [1] A. Le Bail, (2002) http://sdpd.univ-lemans.fr/iniref/lbm-story/ [2] Hugo Rietveld: http://home.wxs.nl/~rietv025/ [3] http://www.ccp14.ac.uk/solution/lebail/#software [4] R.E. Morris, W.T.A. Harrison, J.M. Nicol, A.P. Wilkinson & A.K. Cheetham, Nature 359 (1992) 519-522 Determination of complex structures by combined neutron and synchrotron X-ray powder diffraction. [5] D. Walker, G. Hughes, L. M. D. Cranswick, S. M. Clark and S. Buhre. "Synthesis and thermal decomposition of tetragonal RbClO4 and volume of fluid O2 from 2 to 9 GPa", Geochemistry, Geophysics, Geosystems, Vol. 2, 2001 [6] D. Walker, S.M. Clark, L.M.D. Cranswick, M.C. Johnson and R.L. Jones, "O2 volumes at high pressure from KClO4 decomposition: D" as a siderophile element pump instead of a lid on the core." (2002), Geochemistry, Geophysics, Geosystems (G^3), 23 November 2002.