CONICET | Buscador de Institutos y Recursos Humanos

Direct and indirect methods of x-ray spectra determination present obstacles to their practical use since they must position either the collimator-detector assembly or the attenuators-ionization chamber, respectively, along the x-ray beam direction. These arrangements require considerable space and in many instances the detectors promptly saturate. An indirect procedure, that overcomes the aforementioned problems, is developed. It consists of the scattering of the x-ray beam from a carbon disk, which is detected simultaneously by several detectors placed away from the beam. The x ray flux reaching each of these detectors is attenuated in metal sheets of different thicknesses, thus obtaining simultaneously the attenuation curve values. A set of analytical equations are derived to calculate attenuation curves by taking into account all the absorption and elastic and inelastic scattering processes that a beam of photons undergoes when going from the x-ray tube to the detector. Users, even those who are not well acquainted with computer programming, can easily obtain the x-ray spectrum by a least square fitting of a measured attenuation curve to a previously derived analytical expression. A simulated Monte Carlo program of photon transport from the x-ray tube to the detector provided simulated attenuation curves data. Analytically calculated and simulated attenuation curves for the same input spectrum wholly overlap and furthermore, reconstructed spectra from both set of curves for different kilovoltages are also in full agreement. Finally, in addition to the importance of having the detectors out of the beam direction, the proposed arrangement features other main advantages, namely, only one x-ray tube shot is needed to obtain the required data, the physical processes involved are very well known, analytical equations are easily interpreted, and the measuring apparatuses can be comparatively simple to assemble and operate.