ABSTRACT
This chapter discusses that violating the Pauli principle is even necessary in the dynamics of quarks. In 1964 Greenberg introduced the notion of "color charge" to explain how quarks could coexist inside hadrons in otherwise identical quantum states without violating the Pauli Exclusion Principle. Color charges were introduced in theory of quarks to account for quark's coexistence inside hadrons; because the researchers believed that the violation of Pauli Exclusion Principle is forbidden at any conditions. The structure of quarks in standard model is described by unitary symmetry SU. The interaction of quarks with tessellattice introduces some nonlinearity in the behavior of quarks. The naked quark in the tessellattice is unstable and collapses under the pressure of the whole space and in such a case, its final state shall be a stable lepton. The concept of the diquark and the achievements of submicroscopic mechanics in the realm of leptons allow us to reconsider the approach to the interaction of quarks.
