The advent of high-temperature superconductivity in 1986 [1] shook the foundations of superconductivity. First identified in the cuprate BanLa5−nCu5O5+x, it propelled these elusive materials unto...Show moreThe advent of high-temperature superconductivity in 1986 [1] shook the foundations of superconductivity. First identified in the cuprate BanLa5−nCu5O5+x, it propelled these elusive materials unto the center stage of physics. To let the cuprates divulge their secrets, quasi-particle interference is nowadays an indispensable tool. In the nascent days of the field research using this method primarily has been performed on the underdoped version of the cuprates. The overdoped regime however is less intensively studied. In this study we apply the T-matrix method to model QPI in the overdoped phase. We modify a simulation for underdoped cuprates to make it suitable for application on the desired regime. Then, in order to obtain a quantative analysis of our result we compare experiment and simulation using the Structural Similarity Index Measure. Using this method the filling of the gap, the characteristics of the dispersion bands and the van Hove singularity are investigated.Show less