Linear motor and compressor equipped with linear motor

What is claimed is: 1. A linear motor comprising: an armature including a first magnetic pole and a second magnetic pole arranged in a Z direction, and a first winding wire wound around the first magnetic pole, and a second winding wire wound around the second magnetic pole; a mover with a permanent magnet, which moves relative to the armature in the Z direction; a first auxiliary magnetic pole disposed between the first and second magnetic poles; a first bridge disposed between the first auxiliary magnetic pole and the first magnetic pole; a second bridge disposed between the first auxiliary magnetic pole and the second magnetic pole, wherein the first and second winding wires are disposed on a same first side of the permanent magnet, wherein the first and second winding wires are electrically coupled and magnetic fluxes generated in the first and second magnetic poles by currents flowing through the first and second winding wires are oppositely directed, and a third winding wire wound around the first magnetic pole, and a fourth winding wire wound around the second magnetic pole, wherein the third and fourth winding wires are disposed on a same second side of the permanent magnet opposite the first side, wherein the third and fourth winding wires are electrically coupled and the magnetic fluxes generated in the first and second magnetic poles by currents flowing through the third and fourth winding wires are oppositely directed, wherein the magnetic fluxes generated by the currents flowing through the first and third winding wires are in the same direction, and wherein the magnetic fluxes generated by the currents flowing through the second and fourth winding wires are in the same direction. 2. The linear motor according to claim 1 , wherein a conductivity and a permeability of the armature in X and Y directions are higher than a conductivity and a permeability in the Z direction. 3. The linear motor according to claim 1 , wherein the first and second bridges are each a non-magnetic substance. 4. The linear motor according to claim 1 , wherein the first auxiliary magnetic pole defines a first space communicated in the Z direction on the first side of the permanent magnet, and the first space is greater than or equal to an XY dimension of the first and second winding wires when seen from the Z direction. 5. The linear motor according to claim 4 , wherein the first auxiliary magnetic pole defines a second space communicated in the Z direction on the second side of the permanent magnet, and the second space is greater than or equal to an XY dimension of the third and fourth winding wires when seen from the Z direction. 6. The linear motor according to claim 1 , wherein a second auxiliary magnetic pole is provided at an outer side of both the first magnetic pole and the second magnetic pole in the Z direction, respectively via an end bridge. 7. A compressor comprising: a linear motor comprising: an armature including a first magnetic pole and a second magnetic pole arranged in a Z direction, and a first winding wire wound around the first magnetic pole, and a second winding wire wound around the second magnetic pole; a mover with a permanent magnet, which moves relative to the armature in the Z direction; a first auxiliary magnetic pole disposed between the first and second magnetic poles; a first bridge disposed between the first auxiliary magnetic pole and the first magnetic pole; a second bridge disposed between the first auxiliary magnetic pole and the second magnetic pole, wherein the first and second winding wires are disposed on a same first side of the permanent magnet, wherein the first and second winding wires are electrically coupled and magnetic fluxes generated in the first and second magnetic poles by currents flowing through the first and second winding wires are oppositely directed, and a third winding wire wound around the first magnetic pole, and a fourth winding wire wound around the second magnetic pole, wherein the third and fourth winding wires are disposed on a same second side of the permanent magnet opposite the first side, wherein the third and fourth winding wires are electrically coupled and the magnetic fluxes generated in the first and second magnetic poles by currents flowing through the third and fourth winding wires are oppositely directed, wherein the magnetic fluxes generated by the currents flowing through the first and third winding wires are in the same direction, and wherein the magnetic fluxes generated by the currents flowing through the second and fourth winding wires are in the same direction; a cylinder block; a first fixing member which is inserted into an insertion hole of the armature in the Z direction; and a second fixing member which is inserted into insertion holes of the cylinder block and the armature in the Z direction. 8. The compressor according to claim 7 , wherein the second fixing member is allowed to be screwed with an insertion hole of a member attached to an end of the armature in the Z direction. 9. The compressor according to claim 7 , wherein the cylinder block and the armature are fixed to form substantially a rectangular parallelepiped shape. 10. The linear motor according to claim 7 , wherein the first auxiliary magnetic pole defines a first space communicated in the Z direction on the first side of the permanent magnet, and the first space is greater than or equal to an XY dimension of the first and second winding wires when seen from the Z direction. 11. The linear motor according to claim 10 , wherein the first auxiliary magnetic pole defines a second space communicated in the Z direction on the second side of the permanent magnet, and the second space is greater than or equal to an XY dimension of the third and fourth winding wires when seen from the Z direction.