Unfolding X-ray spectra using a flat panel detector. Determination of the accuracy of the method with the Monte Carlo method

The primary X-ray spectrum depends on different parameters such as high voltage, filament current, high voltage ripple, anode angle and thickness of filter material. The objective of this work is to determine whether the unfolding technique based on the Tikhonov regularization method is accurate eno...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) England : 1993), 2019-02, Vol.155, p.233-238
Main Authors: Gallardo, S., Ródenas, J., Verdú, G.
Format: Article
Language:English
Subjects:
Accuracy
Computer simulation
Electric potential
Flat panels
High voltages
Ill posed problems
Mathematical models
Monte Carlo simulation
Polymethyl methacrylate
Radiation
Regularization
Response functions
Sensors
Thickness
X ray spectra
X ray tubes
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Summary:The primary X-ray spectrum depends on different parameters such as high voltage, filament current, high voltage ripple, anode angle and thickness of filter material. The objective of this work is to determine whether the unfolding technique based on the Tikhonov regularization method is accurate enough to estimate the X-ray spectrum when slight changes in the operation variables are considered. In this frame, several X-ray spectra are considered (extracted from the IPEM78 Catalogue Report) varying the main operation variables of the X-ray tube (high voltage, voltage ripple, filter thickness and filter material). With those spectra, the corresponding absorbed dose curves are obtained by simulation with a MCNP5 model reproducing a flat panel detector and a PMMA wedge. Once the absorbed dose curves are simulated and applying the unfolding Tikhonov regularization method, the unfolded spectrum is obtained, which is finally compared with the theoretical one (IPEM78 Catalogue Report). Discrepancies between unfolded and primary X-ray spectra can be attributed to the fact that this is an ill-posed problem, and the unfolding of the spectrum is strongly affected by the method used to improve the conditioning of the response function (response matrix). •Unfolding of X-ray spectra in the radiodiagnostic energy range.•Application of the Monte Carlo code MCNP5 to obtain dose curves.•Unfolding using Tikhonov regularization technique.•Accuracy of Tikhonov method.
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2018.09.014