Open AccessThe Mathematical Foundations of 3D Compton Scatter Emission Imaging
Author(s) -
T. T. Truong,
Maï K. Nguyen,
Habib Zaidi
Publication year - 2007
Publication title -
international journal of biomedical imaging
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.626
H-Index - 41
eISSN - 1687-4196
pISSN - 1687-4188
DOI - 10.1155/2007/92780
Subject(s) - collimated light , conical surface , radon , compton scattering , optics , physics , detector , radon transform , invertible matrix , class (philosophy) , computer science , computer vision , artificial intelligence , mathematics , nuclear physics , geometry , scattering , laser , quantum mechanics
The mathematical principles of tomographic imaging using detected (unscattered) X- or gamma-rays are based on the two-dimensional Radon transform and many of its variants. In this paper, we show that two new generalizations, called conical Radon transforms, are related to three-dimensional imaging processes based on detected Compton scattered radiation. The first class of conical Radon transform has been introduced recently to support imaging principles of collimated detector systems. The second class is new and is closely related to the Compton camera imaging principles and invertible under special conditions. As they are poised to play a major role in future designs of biomedical imaging systems, we present an account of their most important properties which may be relevant for active researchers in the field.
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