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Willian V. de Abreu,Aquilino S. Martinez,Eduardo D. do Carmo,Alessandro C. Gonçalves 한국원자력학회 2022 Nuclear Engineering and Technology Vol.54 No.4
This paper aims to present a new method for obtaining an analytical solution for the Kaniadakis Dopplerbroadening (KDB) function. Also, in this work, we report the computational efficiencies of this solutioncompared with the numerical one. The solution of the differential equation achieved in this paper is freeof approximations and is, consequently, a more robust methodology for obtaining an analytical representation of jk. Moreover, the results show an improvement in efficiency using the analytical approximation, indicating that it may be helpful in different applications that require the calculation of thedeformed Doppler broadening function.