Axial flux switching permanent magnet machine

What is claimed is: 1. An electrical machine comprising: a rotor comprising a rotor core having a first face and a second face, wherein the second face faces in a direction opposite to the first face, wherein an aperture is formed through the first face and the second face; a first plurality of poles mounted to extend from the first face; and a second plurality of poles mounted to extend from the second face; a first stator comprising a first plurality of core pieces, wherein each core piece of the first plurality of core pieces includes a slot having a first sidewall and a second sidewall; a second stator comprising a second plurality of core pieces, wherein each core piece of the second plurality of core pieces includes a slot having a first sidewall and a second sidewall; a first plurality of permanent magnets, wherein a permanent magnet of the first plurality of permanent magnets is mounted between the first sidewall and the second sidewall of adjacent core pieces of the first plurality of core pieces; a second plurality of permanent magnets, wherein a permanent magnet of the second plurality of permanent magnets is mounted between the first sidewall and the second sidewall of adjacent core pieces of the second plurality of core pieces; a first winding wound over the first sidewall of a first core piece of the first plurality of core pieces, over a first permanent magnet of the first plurality of permanent magnets mounted between the first sidewall of the first core piece and the second sidewall of a second core piece of the first plurality of core pieces, and over the second sidewall of the second core piece of the first plurality of core pieces, wherein the first core piece and the second core piece of the first plurality of core pieces are adjacent to each other; a second winding wound over the second sidewall of a third core piece of the first plurality of core pieces, over a second permanent magnet of the first plurality of permanent magnets mounted between the second sidewall of the third core piece and the first sidewall of a fourth core piece of the first plurality of core pieces, and over the first sidewall of the fourth core piece of the first plurality of core pieces, wherein the third core piece and the fourth core piece of the first plurality of core pieces are adjacent to each other; a third winding wound over the first sidewall of a first core piece of the second plurality of core pieces, over a first permanent magnet of the second plurality of permanent magnets mounted between the first sidewall of the first core piece and the second sidewall of a second core piece of the second plurality of core pieces, and over the second sidewall of the second core piece of the second plurality of core pieces, wherein the first core piece and the second core piece of the second plurality of core pieces are adjacent to each other; and a fourth winding wound over the second sidewall of a third core piece of the second plurality of core pieces, over a second permanent magnet of the second plurality of permanent magnets mounted between the second sidewall of the third core piece and the first sidewall of a fourth core piece of the second plurality of core pieces, and over the first sidewall of the fourth core piece of the second plurality of core pieces, wherein the third core piece and the fourth core piece of the second plurality of core pieces are adjacent to each other; wherein the first winding is closer to the third winding than to the fourth winding; wherein the first stator is mounted axially relative to the rotor so that a first air gap separates the first plurality of poles from the first winding and the second winding; wherein the second stator is mounted axially relative to the rotor so that a second air gap separates the second plurality of poles from the third winding and the fourth winding; wherein the first permanent magnet of the first plurality of permanent magnets and the second permanent magnet of the first plurality of permanent magnets have opposite polarities; wherein the first permanent magnet of the second plurality of permanent magnets and the second permanent magnet of the second plurality of permanent magnets have opposite polarities; wherein the first winding, the second winding, the third winding, and the fourth winding are connected in series; and wherein an absolute value of an angle offset between the first winding and the third winding and between closest poles of the first plurality of poles and the second plurality of poles is 180 electrical degrees. 2. The electrical machine of claim 1 , wherein a number of the first plurality of core pieces equals a number of the second plurality of core pieces. 3. The electrical machine of claim 2 , wherein a number of poles of the first plurality of poles equals a number of poles of the second plurality of poles. 4. The electrical machine of claim 3 , wherein the number of the first plurality of core pieces is greater than the number of poles. 5. The electrical machine of claim 3 , wherein the number of the first plurality of core pieces equals six, and the number of poles equals four. 6. The electrical machine of claim 1 , wherein a number of the first plurality of core pieces is equal to two and a number of phases of a current of the electrical machine is one. 7. The electrical machine of claim 1 , wherein a first number of the first plurality of core pieces and a second number of the second plurality of core pieces is two, and the third core piece and the second core piece of the first plurality of core pieces are the same core piece, and the first core piece and the fourth core piece of the first plurality of core pieces are the same core piece. 8. The electrical machine of claim 1 , wherein a number of the first plurality of core pieces equals a number of the first plurality of permanent magnets. 9. The electrical machine of claim 1 , wherein the second plurality of poles are aligned with the first plurality of poles. 10. The electrical machine of claim 1 , wherein the second plurality of poles are rotated 180 electrical degrees relative to the first plurality of poles. 11. The electrical machine of claim 1 , wherein the first permanent magnet of the first plurality of permanent magnets and the first permanent magnet of the second plurality of permanent magnets have a common polarity, and further wherein the second permanent magnet of the first plurality of permanent magnets and the second permanent magnet of the second plurality of permanent magnets have a common polarity. 12. The electrical machine of claim 1 , wherein the first permanent magnet of the first plurality of permanent magnets and the first permanent magnet of the second plurality of permanent magnets have an opposite polarity, and further wherein the second permanent magnet of the first plurality of permanent magnets and the second permanent magnet of the second plurality of permanent magnets have the opposite polarity. 13. The electrical machine of claim 1 , wherein the second plurality of poles are rotated θ r electrical degrees relative to the first plurality of poles and wherein the second plurality of permanent magnets are rotated θ s electrical degrees relative to the first plurality of permanent magnets, and θ off =|θ s −θ r |=π, where θ off is the angle offset. 14. The electrical machine of claim 1 , wherein each core piece of the first plurality of core pieces is mounted at a regular pitch circumferentially around a first aperture of the first stator. 15. The electrical machine of claim 14 , wherein each core piece of the second plurality of core piec