Structures and methods of fabricating dual gate devices

What is claimed is: 1. A semiconductor device comprising: a substrate; an epi region over said substrate; a source trench that extends through said epi region and into said substrate; a gate trench that extends into but not through said epi region, wherein sidewalls of said gate trench are parallel to sidewalls of said source trench; a source contact coupled to first polysilicon in said source trench at an end of said source trench, wherein said source contact is directly over and in contact with a first surface of said first polysilicon; and a gate contact coupled to second polysilicon in said gate trench at an end of said gate trench, wherein said gate contact is directly over and in contact with a second surface of said second polysilicon, wherein said first and second surfaces are both flush with a surface of a mesa that is between said gate and source trenches, wherein a first oxide layer lines said source trench and a second oxide layer lines said gate trench, wherein a surface of said first oxide layer is flush with both said first and second surfaces and wherein a surface of second oxide layer is flush with both said first and second surfaces, wherein said source contact is also in contact with said mesa, and wherein said source contact is isolated from said second polysilicon in said gate trench by an oxide region above said second surface. 2. The semiconductor device of claim 1 wherein said source contact is part of a first metal layer and said gate contact is part of a second metal layer, wherein said first and second metal layers are physically isolated from one another and in the same surface plane. 3. The semiconductor device of claim 1 wherein said gate trench is wider at said second end. 4. The semiconductor device of claim 1 wherein said gate trench is wider than said gate contact. 5. The semiconductor device of claim 1 further comprising a region of p-type dopant adjacent an upper surface of said mesa between said gate and source trenches, wherein said source contact is also in contact with said region of p-type dopant. 6. A semiconductor device comprising: a substrate; an epi region over said substrate; a source trench that extends through said epi region and into said substrate; a gate trench that extends into but not through said epi region, wherein sidewalls of said gate trench are parallel to sidewalls of said source trench and wherein said source trench and said gate trench are separated by a mesa having an upper surface; a source contact of a source metal layer coupled to and in contact with a first surface of first polysilicon in said source trench at an end of said source trench and also coupled to and in contact with said mesa, wherein said source metal layer formed on said substrate extends over said source trench, said mesa and said gate trench; and a gate contact of a gate metal layer coupled to and in contact with a second surface of second polysilicon in said gate trench at an end of said gate trench, wherein said gate metal layer formed on said substrate extends over said source trench, said mesa and said gate trench and wherein said first surface and said second surface are each flush with said upper surface of said mesa on which said source metal layer and said gate metal layer are disposed, wherein a first oxide layer lines said source trench and wherein a second oxide layer lines said gate trench, wherein a surface of said first oxide layer is flush with both said first said surface and said second surface and wherein a surface of second oxide layer is flush with both said first surface and said second surface, and wherein said source metal layer is isolated from said second polysilicon in said gate trench by an oxide region above said second surface. 7. The semiconductor device of claim 6 wherein said source and gate metal layers are physically isolated from one another and in the same surface plane. 8. The semiconductor device of claim 6 wherein said gate trench is wider at said second end. 9. The semiconductor device of claim 6 wherein said gate trench is wider than said gate contact. 10. The semiconductor device of claim 6 further comprising a region of p-type dopant adjacent said upper surface of said mesa between said gate and source trenches, wherein said source contact is also in contact with said region of p-type dopant.