Antiferromagnetic coupling layers

We claim: 1. A system, comprising: a first soft magnetic layer with a first magnetic thickness (BA wherein the first soft magnetic layer has a low magnetic permeability region and a high magnetic permeability region; a second soft magnetic layer with a second magnetic thickness, wherein the second magnetic thickness is different from the first magnetic thickness and equal to a magnetic thickness of the low magnetic permeability region; a first coupling layer oriented between the first soft magnetic layer and the second soft magnetic layer and the first coupling layer configured to antiferromagnetically couple the first soft magnetic layer and the second soft magnetic layer; a third soft magnetic layer with a third magnetic thickness, wherein the third magnetic thickness has a different magnitude than one or both of the first magnetic thickness and the second magnetic thickness; a nonmagnetic spacer layer oriented between the third soft magnetic layer and the first soft magnetic layer or the second soft magnetic layer; a fourth soft magnetic layer with a fourth magnetic thickness, wherein the fourth magnetic thickness has a different magnitude than the third magnetic thickness; and a second coupling layer oriented between the third soft magnetic layer and the fourth soft magnetic layer and providing antiferromagnetic coupling between the third soft magnetic layer and the fourth soft magnetic layer. 2. The system of claim 1 , wherein the low magnetic permeability region overlies the high magnetic permeability region. 3. The system of claim 1 , wherein the high magnetic permeability region overlies the low magnetic permeability region. 4. The system of claim 1 , wherein the low magnetic permeability region and the second soft magnetic layer are each oriented adjacent the coupling layer. 5. The system of claim 1 , wherein the first soft magnetic layer and the second soft magnetic layer have unequal thicknesses. 6. The system of claim 1 , wherein the first soft magnetic layer and the second soft magnetic layer have equal magnetic moments. 7. The system of claim 1 , wherein the third soft magnetic layer has a low magnetic permeability region and a high magnetic permeability region. 8. The system of claim 1 , wherein the low permeability region of the first soft magnetic layer and the second soft magnetic layer together have a magnetic thickness of less than about 2 memu/cm 2 . 9. The system of claim 1 , wherein the total thickness of the first soft magnetic layer, the second soft magnetic layer, and the first coupling layer combined is between about 200 angstroms and 400 angstroms. 10. The system of claim 1 , further comprising: a non-magnetic seed layer overlying the first soft magnetic layer, the second soft magnetic layer, the first coupling layer, the third soft magnetic layer, the nonmagnetic spacer layer, the fourth soft magnetic layer, and the second coupling layer; an interlayer overlying the seed layer; and a magnetic recording layer overlying the interlayer. 11. The system of claim 10 , wherein the magnetic recording layer is a magnetically hard perpendicular recording layer. 12. The system of claim 1 , wherein the second soft magnetic layer has a thickness and the low permeability region has the same thickness. 13. A method comprising: stacking a first soft magnetic layer with a first magnetic thickness (B s t) over a substrate, the first soft magnetic layer having a low magnetic permeability region and a high permeability region; stacking a first coupling layer over the first soft magnetic layer; stacking a second soft magnetic layer with a second magnetic thickness over the coupling layer, wherein the second magnetic thickness has a different magnitude than the first magnetic thickness and is equal to a magnetic thickness of the low magnetic permeability region, and the first coupling layer is configured to antiferromagnetically couple the first soft magnetic layer and the second soft magnetic layer; stacking a nonmagnetic spacer layer over the second soft magnetic layer; stacking a third soft magnetic layer with a third magnetic thickness over the nonmagnetic spacer layer, wherein the third magnetic thickness has a different magnitude than one or both of the first magnetic thickness and the second magnetic thickness; stacking a second coupling layer over the third soft magnetic layer; and stacking a fourth soft magnetic layer with a fourth magnetic thickness over the second coupling layer, wherein the fourth magnetic thickness has a different magnitude than the third magnetic thickness and the second coupling layer provides anti ferromagnetic coupling between the third soft magnetic layer and the fourth soft magnetic layer. 14. The method of claim 13 , wherein the low magnetic permeability region overlies the high magnetic permeability region. 15. The method of claim 13 , wherein the low magnetic permeability region and the second soft magnetic layer are each oriented adjacent the coupling layer. 16. The method of claim 13 , wherein the first soft magnetic layer and the second soft magnetic layer have equal magnetic moments. 17. The method of claim 13 , wherein the third soft magnetic layer has a low magnetic permeability region and a high magnetic permeability region. 18. The method of claim 13 , further comprising: stacking a non-magnetic seed layer over the fourth soft magnetic layer; stacking an interlayer over the seed layer; and stacking a magnetic recording layer over the interlayer. 19. The method of claim 18 , wherein the magnetic recording layer is a magnetically hard perpendicular recording layer. 20. A magnetic recording medium comprising: a soft magnetic underlayer with at least four antiferromagnetically coupled soft magnetic layers, wherein at least two of the at least four antiferromagnetically coupled soft magnetic layers have unequal magnetic moments and different magnetic thicknesses (B s t), and two of the at least four antiferromagnetically coupled soft magnetic layers has a low magnetic permeability region and a high magnetic permeability region where a magnetic thickness of the low magnetic permeability region is equal to the magnetic thickness of one of the other of the at least two antiferromagnetically coupled soft magnetic layers not having a low magnetic permeability region and a high magnetic permeability region.