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The grand questions of mankind, what are the innermost structures of matter, space and time and which laws are the basis for the fundamental forces in the universe, have not yet been answered completely.It is known that the biggest part of the observable matter, we will not deal with phenomena like dark matter in this work, is made of strongly interacting quarks and gluons. In modern high energy physics it has been accepted generally that quarks are the basic building blocks of matter.And even though there is no obvious link between exotic hadrons and the time evolution of the universe after the big bang, it offers a great motivation to further explore excited hadron states and look for something unexpected that might broaden our understanding of the world around us. As vast a field particle physics may be, one of the greatest intellectual challenges of modern physics is to understand confinement not just as a phenomenon but to comprehend it quantitatively from the theory of the strong force.