Vibration actuator and mobile electronic apparatus including the same

What is claimed is: 1. A vibration actuator that cooperates with a coil and a magnet to vibrate a movable body with respect to a stationary body, the vibration actuator comprising: the stationary body including the coil and a core around which the coil is wound; a shaft part; and the movable body including the magnet, the movable body being movably supported by the stationary body via the shaft part, wherein the core is disposed along an axial direction of the shaft part and includes a core-side magnetic pole to be excited by energization to the coil, the magnet includes a magnet-side magnetic pole disposed so as to face the core-side magnetic pole with a gap therebetween, and the vibration actuator further comprises a spring part elastically supporting the movable body with respect to the stationary body, linearly movably in the axial direction in a reciprocating manner, and rotationally movably about an axis in a reciprocating manner, wherein, in the movable body, opposite side parts positioned such that the shaft part is placed therebetween and extending in the axial direction are configured to have a thicknesses in a rotational direction thinner than a part into which the shaft part is inserted. 2. The vibration actuator according to claim 1 , wherein the spring part includes: a magnetic spring provided by a magnetic attractive force occurring between the core-side magnetic pole and the magnet-side magnetic pole; and a metal spring disposed so as to urge the movable body in the axial direction between the movable body and the stationary body. 3. The vibration actuator according to claim 2 , wherein the metal spring is a cylindrical coil spring that is provided around the shaft part, between the stationary body and the movable body, and generates a torque in a winding direction of the coil along with movement of the movable body in the axial direction by energization to the coil. 4. The vibration actuator according to claim 3 , wherein the cylindrical coil spring is fixedly joined to one of the stationary body and the movable body, the stationary body and the movable body being connected to an end of at least one of opposite ends of the cylindrical coil spring which are connected to both the stationary body and the movable body. 5. The vibration actuator according to claim 3 , wherein in the cylindrical coil spring, at least one of opposite ends of the cylindrical coil spring which are connected to the stationary body and the movable body is provided with a planar portion that is in planar contact with one of the stationary body and the movable body. 6. The vibration actuator according to claim 1 , wherein the magnet-side magnetic pole is disposed to protrude partly in a rotational direction and generates a torque in the rotational direction in cooperation with the core-side magnetic pole excited by the energized coil. 7. The vibration actuator according to claim 1 , wherein the coil is driven by a drive signal at a single frequency where a resonant frequency at which the movable body is linearly moved in a reciprocating manner, and a resonant frequency at which the movable body is rotationally moved in a reciprocating manner are substantially identical to each other. 8. The vibration actuator according to claim 1 , wherein the coil is driven by an input drive signal, a frequency of the drive signal being a superimposition of a drive frequency at which the movable body is linearly moved in a reciprocating manner, and a drive frequency at which the movable body is rotationally moved in a reciprocating manner different from a linear direction. 9. The vibration actuator according to claim 1 , wherein the movable body contains a high specific gravity metal material. 10. A mobile electronic apparatus provided with the vibration actuator according to claim 1 .