Stator windings with variable cross-section for geometry optimization and direct cooling

What is claimed is: 1. A vehicle system comprising: an axial flux motor comprising: a stator having a first side and a second side opposite the first side, the stator comprising: N stator core components on the first side, wherein N is an integer greater than two; N stator windings that are disposed around the N stator core components, respectively, wherein each of the N stator windings includes, from a point of view facing the first side: a first width at a first location; and a second width that is greater than the first width at a second location that is radially outward from the first location relative to an axis through the stator; slot openings disposed between adjacent ones of the stator windings; and a rotor including a third side and M permanent magnets on the third side, wherein the first side is parallel to the third side, and wherein M is an integer greater than or equal to two, wherein a distance between adjacent ones of the stator windings is constant from an inner diameter of the stator windings to an outer diameter of the stator windings. 2. The vehicle system of claim 1 wherein each of the N stator windings further includes, from the point of view, a third width that is greater than the second width at a third location that is radially outward from the second location relative to the axis. 3. The vehicle system of claim 1 wherein each of the N stator windings, from the point of view, increases in width in a direction radially outwardly from the axis. 4. The vehicle system of claim 1 wherein the N stator windings are three dimensionally printed. 5. The vehicle system of claim 1 wherein the N stator windings are rolled. 6. The vehicle system of claim 1 wherein the N stator windings include coolant channels through the N stator windings. 7. The vehicle system of claim 6 further comprising: a pump configured to pump a coolant through the coolant channels. 8. The vehicle system of claim 7 further comprising a heat exchanger configured to increase heat transfer away from the coolant. 9. The vehicle system of claim 1 wherein the N stator core components include trapezoidal faces and a thickness between the trapezoidal faces. 10. The vehicle system of claim 1 wherein the N stator core components are arranged in a circle around the axis. 11. A vehicle system including: a stator for an axial flux electric motor, the stator comprising: a stator body having a first side and a second side opposite the first side; N stator core components disposed on the first side, wherein N is an integer greater than two; N stator windings that are disposed around the N stator core components, respectively, wherein each of the N stator windings includes, from a point of view facing the first side: a first width at a first location; and a second width that is greater than the first width at a second location that is radially outward from the first location relative to an axis through the stator body; and slot openings disposed between adjacent ones of the stator windings, wherein a distance between adjacent ones of the stator windings is constant from an inner diameter of the stator windings to an outer diameter of the stator windings. 12. The vehicle system of claim 11 wherein each of the N stator windings further includes, from the point of view, a third width that is greater than the second width at a third location that is radially outward from the second location relative to the axis. 13. The vehicle system of claim 11 wherein each of the N stator windings, from the point of view, increases in width in a direction radially outwardly from the axis. 14. The vehicle system of claim 11 wherein the N stator windings are three dimensionally printed. 15. The vehicle system of claim 11 wherein the N stator windings are rolled. 16. The vehicle system of claim 11 wherein the N stator windings include coolant channels through the N stator windings. 17. The vehicle system of claim 16 , further comprising a pump configured to pump coolant through the coolant channels. 18. The vehicle system of claim 11 wherein the N stator core components include trapezoidal faces and a thickness between the trapezoidal faces. 19. The vehicle system of claim 11 wherein the N stator core components are arranged in a circle around the axis.