This paper is a study on the optimal design of the pole piece of a coaxial magnetic gear (CMG). The pole piece shape of the CMG was designed in four shapes: hexagonal, fan-shaped, rhombus, and elliptical, and the analysis was performed. The length of the CMG pole piece was selected from the range of 6mm to 10mm in width and 10mm to 16mm in length, and the analysis was performed using 3D finite element analysis to consider the axial leakage flux. The hexagonal shape was used as the basic model, and the size of the pole piece was set to 8mm in width and 13mm in length as the initial values. After that, the optimal design was performed using the optimal method for each shape. The objective function was to maximize the average torque, and the constraint was set to a torque ripple of less than 5Nm. As a result of the optimal design, the average torque was improved for all four shapes compared to the initial model. Finally, the pole piece shape was fan-shaped and showed the highest average torque of 57.82Nm at the dimension of 8.5mm in width and 10.5mm in length.