International
Tables for
Crystallography
Volume C
Mathematical, physical and chemical tables
Edited by E. Prince

International Tables for Crystallography (2006). Vol. C, ch. 2.5, pp. 84-88
doi: 10.1107/97809553602060000580

Chapter 2.5. Energy-dispersive techniques

B. Buras,e W. I. F. David,a L. Gerward,b J. D. Jorgensenc and B. T. M. Willisd

aISIS Science Division, Rutherford Appleton Laboratory, Chilton, Didcot, Oxfordshire OX11 0QX, England,bPhysics Department, Technical University of Denmark, DK-2800 Lyngby, Denmark,cMaterials Science Division, Building 223, Argonne National Laboratory, Argonne, IL 60439, USA,dChemical Crystallography Laboratory, University of Oxford, 9 Parks Road, Oxford OX1 3PD, England, and ePhysics Department, Risø National Laboratory, DK-4000 Roskilde, Denmark

References

Besson, J. M. & Weill, G. (1992). EDX station for high pressure at LURE (DCI). High Press. Res. 8, 715–716.
Bourdillon, A. J., Glazer, A. M., Hidaka, M. & Bordas, J. (1978). High-resolution energy-dispersive diffraction using synchrotron radiation. J. Appl. Cryst. 11, 684–687.
Buras, B., Chwaszczewska, J., Szarras, S. & Szmid, Z. (1968). Fixed angle scattering (FAS) method for X-ray crystal structure analysis. Report No. 894/II/PS, 10 pp. Institute of Nuclear Research, Warsaw.
Buras, B. & Gerward, L. (1975). Relations between integrated intensities in crystal diffraction methods for X-rays and neutrons. Acta Cryst. A31, 372–374.
Buras, B. & Gerward, L. (1989). Application of X-ray energy-dispersive diffraction for characterization of materials under high pressure. Prog. Cryst. Growth Charact. 18, 93–138.
Buras, B., Gerward, L., Glazer, A. M., Hidaka, M. & Olsen, J. S. (1979). Quantitative structural studies by means of the energy-dispersive method with X-rays from a storage ring. J. Appl. Cryst. 12, 531–536.
Buras, B. & Leciejewicz, J. (1964). A new method for neutron diffraction crystal structure investigations. Phys. Status Solidi, 4, 349–355.
Buras, B., Mikke, K., Lebech, B. & Leciejewicz, J. (1965). The time-of-flight method for investigations of single-crystal structures. Phys. Status Solidi, 11, 567–573.
Buras, B., Niimura, N. & Olsen, J. S. (1978). Optimum resolution in X-ray energy-dispersive diffractometry. J. Appl. Cryst. 11, 137–140.
Buras, B., Olsen, J. S., Gerward, L., Selsmark, B. & Lindegaard-Andersen, A. (1975). Energy-dispersive spectroscopic methods applied to X-ray diffraction in single crystals. Acta Cryst. A31, 327–333.
Clark, S. M. (1992). A new white beam single crystal and powder diffraction facility at the SRS. Rev. Sci. Instrum. 63, 1010–1012.
Fukamachi, T., Hosoya, S. & Terasaki, O. (1973). The precision of interplanar distances measured by an energy-dispersive method. J. Appl. Cryst. 6, 117–122.
Giessen, B. C. & Gordon, G. E. (1968). X-ray diffraction: new high-speed technique based on X-ray spectroscopy. Science, 159, 973–975.
Glazer, A. M., Hidaka, M. & Bordas, J. (1978). Energy-dispersive powder profile refinement using synchrotron radiation. J. Appl. Cryst. 11, 165–172.
Häusermann, D. (1992). New techniques for new sources: a fresh look at energy-dispersive diffraction for high-pressure studies. High Press. Res. 8, 647–654.
Holzapfel, W. B. & May, W. (1982). Improvements in energy dispersive X-ray diffraction with conical slit and diamond cell. High-pressure research in geophysics, edited by S. Akimoto & M. H. Manghnani, pp. 73–80, and references therein. Dordrecht: Reidel.
Jauch, W., Schultz, A. J. & Schneider, J. R. (1988). Accuracy of single crystal time-of-flight neutron diffraction: a comparative study of MnF2. J. Appl. Cryst. 21, 975–979.
Johnson, M. W. & David, W. I. F. (1985). HPRD: the high resolution powder diffractometer at the spallation neutron source. Report RAL-85-112. Rutherford Appleton Laboratory, Chilton, Didcot, Oxon, UK.
Jorgensen, J. D. & Rotella, F. J. (1982). High-resolution time-of-flight powder diffractometer at the ZING-P′ pulsed neutron source. J. Appl. Cryst. 15, 27–34.
Jorgensen, J. D. & Worlton, T. G. (1985). Disordered structure of D2O ice VII from in situ neutron powder diffraction. J. Chem. Phys. 83, 329–333.
Kalman, Z. H. (1979). On the derivation of integrated reflected energy formulae. Acta Cryst. A35, 634–641.
Laine, E. & Lähteenmäki, I. (1980). The energy-dispersive X-ray diffraction method: annotated bibliography 1968–78. J. Mater. Sci. 15, 269–278, and references therein.
Lowde, R. D. (1956). A new rationale of structure-factor measurement in neutron-diffraction analysis. Acta Cryst. 9, 151–155.
Mao, H. K., Jephcoat, A. P., Hemley, R. J., Finger, L. W., Zha, C. S., Hazen, R. M. & Cox, D. E. (1988). Synchrotron X-ray diffraction measurements of single crystal hydrogen to 26.5 GigaPascals. Science, 239, 1131–1134.
Marmeggi, J. C. & Delapalme, A. (1980). Neutron Laue photographs of crystallographic satellite reflections in alpha-uranium. Physica (Utrecht), 102B, 309–312.
Nelmes, R. J. & McMahon, M. I. (1994). High-pressure powder diffraction on synchrotron sources. J. Synchrotron Rad. 1, 69–73.
Neuling, H. W. & Holzapfel, W. B. (1992). Rietveld analysis for energy dispersive X-ray diffraction under high pressure with synchrotron radiation. High Press. Res. 8, 665–660.
Olsen, J. S. (1992). Instrumentation for high-pressure X-ray diffraction research at HASYLAB. Rev. Sci. Instrum. 63, 1058–1061.
Olsen, J. S., Buras, B., Jensen, T., Alstrup, O., Gerward, L. & Selsmark, B. (1978). Influence of polarization of the incident beam on integrated intensities in X-ray energy-dispersive diffractometry. Acta Cryst. A34, 84–87.
Otto, J. W. (1997). A facility for high-pressure X-ray diffraction at HASYLAB. Nucl. Instrum. Methods, A384, 552–557.
Parrish, W. & Hart, M. (1987). Advantages of synchrotron radiation for polycrystalline diffractometry. Z. Kristallogr. 179, 161–173.
Ruoff, A. L. (1992). EDXD studies above 400 GPa (and prospects for obtaining pressures near 1 TPa and doing EDXD studies at such pressures). High Press. Res. 8, 639–645.
Schultz, A. J., Srinivasan, K., Teller, R. G., Williams, J. M. & Lukehart, C. M. (1984). Single-crystal time-of-flight neutron diffraction structure of hydrogen cis-diacetyltetracarbonyl­rhenate. J. Am. Chem. Soc. 106, 999–1003.
Steichele, E. & Arnold, P. (1975). A high-resolution neutron time-of-flight diffractometer. Phys. Lett. A44, 165–166.
Turberfield, K. C. (1970). Time-of-flight neutron diffractometry. Thermal neutron diffraction, edited by B. T. M. Willis, pp. 34–50. Oxford University Press.
Uno, R. & Ishigaki, A. (1975). The correction of experimental structure factors for thermal diffuse scattering in white X-ray diffraction. Jpn. J. Appl. Phys. 14, 291–292.
Wilson, A. J. C. (1973). Note on the aberrations of a fixed-angle energy-dispersive powder diffractometer. J. Appl. Cryst. 6, 230–237.
Windsor, C. G. (1981). Pulsed neutron diffraction. London: Taylor & Francis.