Magnetic gears perform the same function as mechanical gears using magnetic fields instead of interlocking teeth. The radial flux coaxial magnetic gear, the most common topology, requires a set of magnetically permeable modulators, which must be supported against strong magnetic forces. A bridge is often employed to connect the modulators together, but this reduces the slip torque. This paper proposes a new crescent-shaped feature, which allows modulators to be supported solely by nonmagnetic material between the modulators without a bridge. Using 2D finite element analysis, its slip torque performance is compared to bridged modulator designs and two other curved, bridgeless modulator designs. For lower modulator counts, a modulator with curved indents on both sides can slightly increase the slip torque. However, for higher modulator counts, the proposed crescent-shaped modulator outperforms other modulator retention strategies.