Power transistor with increased avalanche current and energy rating

What is claimed is: 1. A method comprising: (a) forming a drift region; (b) forming a body region which extends down into the drift region from a first upper semiconductor surface, wherein the first upper semiconductor surface extends in a first plane, wherein the body region meets the drift region at a body-to-drift boundary, wherein the body-to-drift boundary has a central portion, wherein the central portion of the body-to-drift boundary is non-planar, and wherein the drift region forms a central ridge that extends upward toward the first upper semiconductor surface; and (c) forming a source region which extends down into the body region from a second upper semiconductor surface, wherein the second upper semiconductor surface extends in a second plane, wherein a maximum depth of the source region is not greater than a distance between the first plane and the second plane, and wherein the first upper semiconductor surface and the second upper semiconductor surface are not coplanar. 2. The method of claim 1 , wherein the first upper semiconductor surface and the second upper semiconductor surface extend parallel to one another. 3. The method of claim 1 , wherein forming the body region of (b) further comprises: (b1) forming a poly silicon layer over portions of the drift region such that only a first area of the drift region is exposed; (b2) applying a first implantation of boron to the first area of the drift region; and (b3) diffusing the first implantation of boron. 4. The method of claim 3 , further comprising: (d) forming a first portion of the body region and a second portion of the body region, wherein the first portion of the body region has a first doping concentration, wherein the second portion of the body region has a second doping concentration, and wherein the first doping concentration is greater than the second doping concentration. 5. The method of claim 4 , wherein the (d) forming the first portion of the body region and the second portion of the body region, further comprises: (d1) applying a first implantation of phosphorus to a first area of the body region not protected by the poly silicon layer; (d2) forming a mask layer over at least a portion of the exposed body region such that a second area of the body region remains exposed, wherein the second area is a subarea of the first area; (d3) applying the second implantation of boron, wherein the second implantation of boron is implanted in the second area of the body region; and (d4) diffusing the first implantation of phosphorus and the second implantation of boron, wherein the diffused first implantation of phosphorus forms the source region, wherein the diffused second implantation of boron forms the first portion of the body region, and wherein the remaining portion of the body region resulting from the diffused first implantation of boron forms the second portion of the body region. 6. The method of claim 1 , wherein the drift region, the body region, and the source region are regions of a field effect transistor. 7. The method of claim 1 , wherein the central portion is not disposed beneath any source region. 8. The method of claim 1 , wherein a portion of the body region that is above the central portion contacts the first upper semiconductor surface. 9. A method comprising: (a) forming a drift region; (b) forming a body region which extends down into the drift region from a first upper semiconductor surface, wherein the body region meets the drift region at a body-to-drift boundary, wherein the body-to-drift boundary has a central portion, wherein the central portion of the body-to-drift boundary is non-planar, wherein the drift region forms a central ridge that extends upward toward the first upper semiconductor surface, and wherein forming the body region of (b) further comprises: (b1) forming a poly silicon layer over portions of the drift region such that only a first area of the drift region is exposed; (b2) applying a first implantation of boron to the first area of the drift region; and (b3) diffusing the first implantation of boron; and (c) forming a source region which extends down into the body region from a second upper semiconductor surface, wherein the first upper semiconductor surface and the second upper semiconductor surface are not coplanar, and wherein the first area of the drift region is ladder-shaped. 10. A method comprising: (a) forming a drift region; (b) forming a body region which extends down into the drift region from a first upper semiconductor surface, wherein the body region meets the drift region at a body-to-drift boundary, wherein the body-to-drift boundary has a central portion, wherein the central portion of the body-to-drift boundary is non-planar, wherein a central portion of the drift region forms a ridge that extends upward toward the first upper semiconductor surface, and wherein forming the body region of (b) further comprises: (b1) forming a poly silicon layer over portions of the drift region such that only a first area of the drift region is exposed; (b2) applying a first implantation of boron to the first area of the drift region; and (b3) diffusing the first implantation of boron; (c) forming a source region which extends down into the body region from a second upper semiconductor surface, wherein the first upper semiconductor surface and the second upper semiconductor surface are not disposed on a same plane; and (d) forming a first portion of the body region and a second portion of the body region, wherein the first portion of the body region has a first doping concentration, wherein the second portion of the body region has a second doping concentration, wherein the first doping concentration is greater than the second doping concentration, and wherein the forming the first portion of the body region and the second portion of the body region of (d), further comprises: (d1) applying a first implantation of phosphorus to a first area of the body region not protected by the poly silicon layer; (d2) applying a second implantation of boron to the first area of the body region; and (d3) diffusing the first implantation of phosphorus and the second implantation of boron, wherein the diffused first implantation of phosphorus forms the source region, wherein the diffused second implantation of boron forms the first portion of the body region, and wherein the remaining portion of the body region resulting from the diffused first implantation of boron forms the second portion of the body region. 11. A method comprising: (a) forming a poly silicon layer over portions of a drift region, wherein a surface of the drift region is exposed; (b) implanting boron into the surface of the drift region that is exposed; (c) diffusing the implanted boron into the drift region thereby forming a body region, wherein a surface of the body region is exposed; (d) implanting phosphorous into the surface of the body region that is exposed; (e) applying a mask to a portion of the surface of the body region that is exposed; (f) implanting boron to the surface of the body region that is exposed and not covered by the mask applied in (e); and (g) diffusing the phosphorus implanted in (d) and the boron implanted in (f), wherein the diffusing of the phosphorus forms a source region, wherein the diffusing of the boron forms a first portion of the body region, and wherein the first portion of the body region has a higher boron concentration than a second portion of the body region. 12. The method of claim 11 , wherein the surface of the drift region of (a) that is exposed is ladder shaped. 13. The method of claim 11 , wherein