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Porous silicon phantoms for high-resolution scintillation imaging

✍ Scribed by G. Di Francia; R. Scafè; G. De Vincentis; V. La Ferrara; G. Iurlaro; I. Nasti; L. Montani; R. Pellegrini; M. Betti; N. Martucciello; R. Pani

Publisher
Elsevier Science
Year
2006
Tongue
English
Weight
344 KB
Volume
569
Category
Article
ISSN
0168-9002

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✦ Synopsis

High resolution radionuclide imaging requires phantoms with precise geometries and known activities using either Anger cameras equipped with pinhole collimators or dedicated small animal devices. Porous silicon samples, having areas of different shape and size, can be made and loaded with a radioactive material, obtaining: (a) precise radio-emitting figures corresponding to the porous areas geometry, (b) a radioactivity of each figure depending on the pore's specifications, and (c) the same emission energy to be used in true exams. To this aim a sample with porous circular areas has been made and loaded with a 99m TcO 4 À solution. Imaging has been obtained using both general purpose and pinhole collimators. This first sample shows some defects that are analyzed and discussed.

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The work demonstrates that the surface atom layers of variously-prepared samples of porous silicon can, after high-temperature heat treatment in high vacuum, yield low energy electron diffraction patterns and also atomic resolution in scanning tunneling microscopy. The (100) surfaces show some patch