The superconducting state of a material has totally zero resistance and magnetic resistance, so it has important application in engineering. In recent years' experiments, a new superconducting state predict by theorem (topological superconductivity) was be founded and caused this field to even flourish. Topological superconductivity has the property of topology. It can protect some important information in material and this property can be used in quantum computer.The fundamental material of quantum computer, qubit, affected by the surrounding easily, and a pair of Majorana fermions formed by topological superconductor can be protected by topological state. So the information will not disappear. My experiment is to deposit Mn as the magnetic impurities on the thin film of Pb on Si. The thin film of Pb on Si has superconductivity, and in theorem that deposit magnetic impurity on traditional superconductor may form topological superconductor. STM is one of the best tools to measure this topological superconductor. So my experiment will mainly focus on the surface topography and growth behavior of Mn and Pb depositing on Si.