Abstract
The author investigates how one can estimate the total attenuation, p, of a polyenergetic X-ray beam what the total attenuation, m, of a monoenergetic beam would have been along the same ray. He finds that for beams with typical diagnostic X-ray spectra passing through the human body one can find a simple function f such that f(p) is a sufficiently close estimate of m to allow good reconstructions. He also finds that m cannot be accurately estimated from p based on the assumption that the human body consists of water alone. The author's results are demonstrated by reconstructions of a mathematical model of a cross-section of the human thorax. The article is self-contained and includes in its Appendices a detailed discussion of the mathematical nature of the problem of beam hardening in computed tomography.
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