Two-parametric model of electron beam in computational dosimetry for radiation processing

•Experimental and computational methods of electron energy evaluation.•Development of two-parametric model of electron beam computational dosimetry.•Accuracy evaluation of penetration parameters in aluminum target vs electron energy.•Approbation of the developed computational method by radiation facility practice.

Computer simulation of irradiation process of various materials with electron beam (EB) can be applied to correct and control the performances of radiation processing installations. Electron beam energy measurements methods are described in the international standards. The obtained results of measurements can be extended by implementation computational dosimetry. Authors have developed the computational method for determination of EB energy on the base of two-parametric fitting of semi-empirical model for the depth dose distribution initiated by mono-energetic electron beam. The analysis of number experiments show that described method can effectively consider random displacements arising from the use of aluminum wedge with a continuous strip of dosimetric film and minimize the magnitude uncertainty value of the electron energy evaluation, calculated from the experimental data.Two-parametric fitting method is proposed for determination of the electron beam model parameters. These model parameters are as follow: E0 – energy mono-energetic and mono-directional electron source, X0 – the thickness of the aluminum layer, located in front of irradiated object. That allows obtain baseline data related to the characteristic of the electron beam, which can be later on applied for computer modeling of the irradiation process.Model parameters which are defined in the international standards (like Ep– the most probably energy and Rp – practical range) can be linked with characteristics of two-parametric model (E0, X0), which allows to simulate the electron irradiation process. The obtained data from semi-empirical model were checked together with the set of experimental results. The proposed two-parametric model for electron beam energy evaluation and estimation of accuracy for computational dosimetry methods on the base of developed model are discussed.