Rotating electric machine, rotating electric machine controller and method for controlling rotating electric machine

What is claimed is: 1. A rotating electric machine, comprising: a stator; a rotor; and a stator core comprising a plurality of teeth, each of the teeth comprising at least one of a through hole axially piercing the tooth and a recess extending from one end of the tooth to another end of the tooth in an axial direction, each of the teeth comprising: a body part protruding from a cylindrical yoke toward an inner circumferential side, a circumferential width dimension of the body part being fixed; and a widened part positioned at a tip end of the body part at the inner circumferential side, the circumferential width dimension of the widened part being extended to be larger than the circumferential dimension of the body part, wherein the through hole is formed at a center position of the body part in a circumferential direction, and wherein two of the recesses are formed at same radial positions at both sides of the body part in the circumferential direction, the two of the recesses reducing a cross-section area of the body part in the circumferential direction. 2. The rotating electric machine according to claim 1 , wherein the widened parts are interconnected through the teeth adjacent to each other, and wherein the stator core comprises the teeth connected into a cylindrical formation that is separable from the cylindrical yoke, the teeth being fixed to an inner circumferential side of the yoke. 3. The rotating electric machine according to claim 2 , further comprising: a rotor core comprising a plurality of magnetic poles arranged in the circumferential direction; a plurality of permanent magnets in the rotor core; and a stator winding wound around the teeth, wherein a dimension of the through hole in the circumferential direction is set such that the tooth that faces the magnetic pole in a radial direction in a non-energized state of the stator winding is magnetically saturated by the permanent magnet at a position where the through hole is formed. 4. The rotating electric machine according to claim 1 , further comprising: a rotor core comprising a plurality of magnetic poles arranged in the circumferential direction; a plurality of permanent magnets in the rotor core; and a stator winding wound around the teeth, wherein a dimension of the through hole or the recess in the circumferential direction is set such that the tooth that faces the magnetic pole in a radial direction in a non-energized state of the stator winding is magnetically saturated by the permanent magnet at a position where the through hole or the recess is formed. 5. The rotating electric machine according to claim 4 , wherein the plurality of permanent magnets are disposed inside the rotor core. 6. The rotating electric machine according to claim 5 , wherein the rotor core comprises a cylindrical part, the cylindrical part being fixed to a shaft and disposed inner circumferential side of the plurality of magnetic poles, and wherein the permanent magnets are arranged along a radial direction from a portion close to an outer circumference of the cylindrical part to a portion close to the outer circumference of the rotor core between the magnetic poles of the rotor core. 7. The rotating electric machine according to claim 6 , wherein the stator winding is wound around the teeth through concentrated winding. 8. A rotating electric machine, comprising: a stator; a rotor; a rotor core comprising a plurality of magnetic poles arranged in a circumferential direction; a stator core comprising a plurality of teeth around each of which a stator winding is wound; and means for saturating magnetically the tooth which radially faces the magnetic pole in the non-energized state of the stator winding, wherein each of the teeth comprises: a body part protruding from a cylindrical yoke toward an inner circumferential side, a circumferential width dimension of the body part being fixed; and a widened part positioned at a tip end of the body part at the inner circumferential side, the circumferential width dimension of the widened part being extended to be larger than the circumferential dimension of the body part, wherein the means for saturating magnetically the tooth is disposed in the body part.