Around a magnet... be a tall order. But yeah, you could. A moving charged particle experiences a force from a magnetic field. The direction of the force is normal to both the particle's velocity and the magnetic field. So if we have a uniform magnetic field that is normal to the direction of a charge's velocity, the charge will move in a circular orbit. The radius of the orbit depends on the magnitude of the charge, the velocity and magnetic field strength. With a bar magnet, the field will vary in both direction and strength in space. However, the field should be more or less cylindrically symmetric along the magnet's axis (we could make the magnet a rod too). So as long as you choose a plane where the magnet's fields are more or less perpendicular, you can get a charge to orbit since the field strength should not vary over a perfectly circular orbit. Course you would have to find the perfect balance in properties and this is probably easier said than done since any loss in the kinetic energy of the particle would upset the orbit.