Contoured showerhead for improved plasma shaping and control

We claim: 1. A showerhead faceplate for use in a semiconductor manufacturing tool, the showerhead faceplate comprising: a substantially circular structure having a bottom surface and a center axis, wherein, when the showerhead faceplate is used in a semiconductor manufacturing process, the bottom surface faces a substrate that is subject to the semiconductor manufacturing process, and wherein: a plurality of gas distribution holes pass through the circular structure, the bottom surface is contoured and has a radial profile that varies with respect to normal distance from a reference plane perpendicular to the center axis, and the radial profile includes: a first linear segment that: starts at the center axis, radiates outwards from the center axis, and is perpendicular to the center axis; a second linear segment that: starts and ends at locations further from the center axis than either end of the first linear segment, radiates outwards from the center axis, is perpendicular to the center axis, and is offset from the first linear segment along the center axis; and a first transition segment that connects the first linear segment with the second linear segment. 2. The showerhead faceplate of claim 1 , the substantially circular structure also having a top surface opposite, and substantially parallel to, the bottom surface, the top surface defining a portion of an internal plenum volume of the showerhead, wherein the top surface is contoured in substantially the same manner as the bottom surface such that each of the gas distribution holes has a length substantially equal to the lengths of the other gas distribution holes. 3. The showerhead faceplate of claim 1 , wherein the radial profile varies with respect to normal distance from the reference plane by an amount greater than 0.010″ in a region corresponding to the outer 3″ of the substrate. 4. The showerhead faceplate of claim 3 , wherein the radial profile varies with respect to normal distance from the reference plane by an amount less than 0.010″ in a region corresponding to the region of the substrate within the outer 3″ of the substrate. 5. The showerhead faceplate of claim 1 , wherein the radial profile is contoured to provide a plasma density that is more uniform than the plasma density produced using a faceplate with a flat profile coincident with the reference plane. 6. The showerhead faceplate of claim 1 , wherein the majority of the bottom surface is coincident with the reference plane and one or more portions of the radial profile are offset from the reference plane in a first direction, and one or more portions of the radial profile are offset from the reference plane in a second direction opposite the first direction. 7. The showerhead faceplate of claim 1 , wherein the radial profile is contoured in a region between an edge region of the faceplate and the center of the faceplate, the edge region including any edge treatment applied to the edge of the faceplate. 8. The showerhead faceplate of claim 7 , wherein the edge treatment is a round and the edge region is offset from the edge by an amount substantially equal to the round radius. 9. The showerhead faceplate of claim 7 , wherein the edge region is a substantially annular region with an inner diameter larger than the nominal size of the substrate. 10. The showerhead faceplate of claim 1 , wherein the second linear segment is offset from the first linear segment along the center axis such that the second linear segment is closer to the substrate that is subject to the semiconductor manufacturing process when the showerhead faceplate is used in the semiconductor manufacturing process. 11. The showerhead faceplate of claim 1 , wherein the majority of the first transition segment is linear. 12. A showerhead faceplate for use in a semiconductor manufacturing tool, the showerhead faceplate comprising: a substantially circular structure having a bottom surface and a center axis, wherein, when the showerhead faceplate is used in a semiconductor manufacturing process, the bottom surface faces a substrate that is subject to the semiconductor manufacturing process, and wherein: a plurality of gas distribution holes pass through the circular structure, the bottom surface is contoured and has a radial profile that varies with respect to normal distance from a reference plane perpendicular to the center axis, and the radial profile includes: a first linear segment that: starts at the center axis, radiates outwards from the center axis, and is perpendicular to the center axis; and a second linear segment that: starts at the end of the first linear segment that is furthest from the center axis, ends at a location further from the center axis than the end of the first linear segment that is furthest from the center axis, and is at an oblique angle with respect to the first linear segment. 13. The showerhead faceplate of claim 12 , wherein the second linear segment is at an angle of approximately 5° with respect to the first linear segment. 14. The showerhead faceplate of claim 13 , wherein the distance between the second linear segment and the substrate that is subject to the semiconductor manufacturing process when the showerhead faceplate is used in the semiconductor manufacturing process increases with increasing distance from the center axis. 15. The showerhead faceplate of claim 12 , wherein the first linear segment has a length approximately ⅔ of the distance between the center axis and an outermost diameter of the substantially circular structure. 16. The showerhead faceplate of claim 12 , the substantially circular structure also having a top surface opposite, and substantially parallel to, the bottom surface, the top surface defining a portion of an internal plenum volume of the showerhead, wherein the top surface is contoured in substantially the same manner as the bottom surface such that each of the gas distribution holes has a length substantially equal to the lengths of the other gas distribution holes. 17. The showerhead faceplate of claim 12 , wherein the radial profile varies with respect to normal distance from the reference plane by an amount greater than 0.010″ in a region corresponding to the outer 3″ of the substrate. 18. The showerhead faceplate of claim 17 , wherein the radial profile varies with respect to normal distance from the reference plane by an amount less than 0.010″ in a region corresponding to the region of the substrate within the outer 3″ of the substrate. 19. The showerhead faceplate of claim 12 , wherein the radial profile is contoured to provide a plasma density that is more uniform than the plasma density produced using a faceplate with a flat profile coincident with the reference plane. 20. The showerhead faceplate of claim 12 , wherein the majority of the bottom surface is coincident with the reference plane and one or more portions of the radial profile are offset from the reference plane in a first direction, and one or more portions of the radial profile are offset from the reference plane in a second direction opposite the first direction. 21. The showerhead faceplate of claim 12 , wherein the radial profile is contoured in a region between an edge region of the faceplate and the center of the faceplate, the edge region including any edge treatment applied to the edge of the faceplate. 22. The showerhead faceplate of claim 21 , wherein the edge treatment is a round and the edge region is offse