Yalcin, S, Gurler, O, Gundogdu, O, Bradley, D AYalcin S., Gurler O., Gundogdu O., Bradley D.Yalcin, S, Gurler, O, Gundogdu, O, Bradley, DA2023-05-092023-05-092012-01-012012-01-012012.01.010969-8043https://hdl.handle.net/20.500.12597/12755This paper discusses a method to determine the thickness of an absorber using the energy distribution of beta particles. An empirical relationship was obtained between the absorber thickness and the energy distribution of beta particles transmitted through. The thickness of a polyethylene radioactive source cover was determined by exploiting this relationship, which has largely been left unexploited allowing us to determine the in-situ cover thickness of beta sources in a fast, cheap and non-destructive way.This paper discusses a method to determine the thickness of an absorber using the energy distribution of beta particles. An empirical relationship was obtained between the absorber thickness and the energy distribution of beta particles transmitted through. The thickness of a polyethylene radioactive source cover was determined by exploiting this relationship, which has largely been left unexploited allowing us to determine the in-situ cover thickness of beta sources in a fast, cheap and non-destructive way. © 2011 Elsevier Ltd.falseBeta particle | Energy distribution | ThicknessJournal Article10.1016/j.apradiso.2011.08.00110.1016/j.apradiso.2011.08.0012-s2.0-84860412873WOS:0002979014000202186824212813270