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Spatial sampling of crystal electrons by in-flight annihilation of fast positrons

A. W. Hunt, D. B. Cassidy, F. A. Selim, R. Haakenaasen, T. E. Cowan, R. H. Howell, K. G. Lynn and J. A. Golovchenko
Additional contact information
A. W. Hunt: Harvard University
D. B. Cassidy: Harvard University
F. A. Selim: Alexandria University
R. Haakenaasen: Norwegian Defense Research Establishment
T. E. Cowan: Lawrence Livermore National Laboratory
R. H. Howell: Lawrence Livermore National Laboratory
K. G. Lynn: Washington State University
J. A. Golovchenko: Harvard University

Nature, 1999, vol. 402, issue 6758, 157-160

Abstract: Abstract Energetic, positively charged particles travelling along a low-index crystal direction undergo many highly correlated, small-angle scattering events; the effect of these interactions is to guide or ‘channel’ (refs 1,2,3,4,5,6,7,8) the particles through the lattice. Channelling effectively focuses positive particles into the interstitial regions of the crystal: nuclear collisional processes such as Rutherford backscattering are suppressed, while the number of interactions with valence electrons increases. The interaction of channelled positrons with electrons produces annihilation radiation that can in principle9,10,11,12 serve as a quantitative, spatially selective probe of electronic charge and spin densities within the crystal: in the interstitial regions, two-photon annihilation is enhanced relative to single-photon annihilation, because the latter process requires a nuclear recoil to conserve momentum. Here we report observations of single- and two-photon annihilation from channelled positrons, using a monoenergetic beam flux of 105 particles per second. Comparison of these two annihilation modes demonstrates the ability of channelled positrons to selectively sample valence electrons in a crystal. Useful practical implementation of the technique will require the development of more intense positron beams with fluxes approaching 107 particles per second.

Date: 1999
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DOI: 10.1038/45990

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