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

International Tables for Crystallography (2006). Vol. C, ch. 2.8, pp. 124-125

Chapter 2.8. Neutron diffraction topography

M. Schlenkera and J. Baruchelb

al'Institut National Polytechnique de Grenoble, Laboratoire Louis Néel du CNRS, BP 166, F-38042 Grenoble CEDEX 9, France, and bExperiment Division, ESRF, BP 220, F-38043 Grenoble CEDEX, France


Ando, M. & Hosoya, S. (1972). Q-switch and polarization domains in antiferromagnetic chromium observed with neutron diffraction topography. Phys. Rev. Lett. 29, 281–285.
Ando, M. & Hosoya, S. (1978). Size and behavior of antiferromagnetic domains in Cr directly observed with X-ray and neutron topography. J. Appl. Phys. 49, 6045–6051.
Baruchel, J. (1989). The contribution of neutron and synchrotron radiation topography to the investigation of first-order magnetic phase transitions. Phase Transit. 14, 21–29.
Baruchel, J., Schlenker, M. & Palmer, S. B. (1990). Neutron diffraction topographic investigations of `exotic' magnetic domains. Nondestr. Test. Eval. 5, 349–367.
Baruchel, J., Schlenker, M., Zarka, A. & Petroff, J. F. (1978). Neutron diffraction topographic investigation of growth defects in natural lead carbonate single crystals. J. Cryst. Growth, 44, 356–362.
Boeuf, A., Lagomarsino, S., Rustichelli, F., Baruchel, J. & Schlenker, M. (1975). White beam neutron topography. Phys. Status Solidi A, 31, K91–K93.
Davidson, J. B. & Case, A. L. (1976). Applications of the fly's eye neutron camera: diffraction tomography and phase transition studies. Proc. Conf. on Neutron Scattering, ORNL, USERDA CONF 760601–P2, pp. 1124–1135.
Davidson, J. B., Werner, S. & Arrott, A. S. (1974). Neutron microscopy of spin density wave domains in chromium. AIP Conf. Proc., edited by C. D. Graham & J. J. Rhyne, Vol. 18, pp. 396–400.
Doi, K., Minakawa, N., Motohashi, H. & Masaki, N. (1971). A trial of neutron diffraction topography. J. Appl. Cryst. 4, 528–530.
Dudley, M., Baruchel, J. & Sherwood, J. N. (1990). Neutron topography as a tool for studying reactive organic crystals: a feasibility study. J. Appl. Cryst. 23, 186–198.
Hustache, R. (1979). Sélection de blocs monocristallins dans un cristal de beryllium par topographie neutronique. Nucl. Instrum. Methods, 163, 151–156.
Malgrange, C., Petroff, J. F., Sauvage, M., Zarka, A. & Englander, M. (1976). Individual dislocation images and Pendellösung fringes in neutron topographs. Philos. Mag. 33, 743–751.
Scherm, R. & Fåk, B. (1993). Neutrons. In Neutron and synchrotron radiation for condensed matter studies, Vol. 1: Theory, instruments and methods. HERCULES (Higher European Research Course for Users of Large Experimental Systems), Grenoble, edited by J. Baruchel, J. L. Hodeau, M. S. Lehmann, J. R. Regnard & C. Schlenker. Les Ulis: Les Editions de Physique; Berlin: Springer-Verlag.
Schlenker, M., Baruchel, J., Perrier de la Bathie, R. & Wilson, S. A. (1975). Neutron diffraction section topography: observing crystal slices before cutting them. J. Appl. Phys. 46, 2845–2848.
Schlenker, M. & Shull, C. G. (1973). Polarized neutron techniques for the observation of ferromagnetic domains. J. Appl. Phys. 44, 4181–4184.
Sillou, D., Baruchel, J., Kuroda, K., Michalowicz, A., Guigay, J. P. & Schlenker, M. (1989). First experiments on flipping ratio mapping with the `multi-PM' position-sensitive detector. Physica (Utrecht), B156–157, 581–583.
Tomimitsu, H., Doi, K. & Kamada, K. (1983). Neutron diffraction topographic observations of substructures in Cu-based alloys. Physica (Utrecht), B120, 96–102.