Free layer magnetic reader that may have a reduced shield-to-shield spacing

What is claimed is: 1. A magnetic read apparatus comprising: a read sensor; a shield structure comprising: a shield pinning structure; a shield reference structure; and a nonmagnetic coupling layer between the shield pinning structure and the shield reference structure; and a top shield structure comprising: a first ferromagnetic layer; a second ferromagnetic layer; a nonmagnetic layer between the first ferromagnetic layer and the second ferromagnetic layer; an antiferromagnetic layer; and a top shield, wherein the antiferromagnetic layer is between the top shield and the second ferromagnetic layer, wherein the read sensor is between the top shield structure and the shield structure. 2. The magnetic read apparatus of claim 1 , wherein the shield pinning structure comprises a pinning layer and a magnetic layer, wherein the magnetic layer abuts the nonmagnetic coupling layer. 3. The magnetic read apparatus of claim 1 , wherein the shield reference structure comprises a first magnetic layer, a second magnetic layer, and a nonmagnetic layer between the first magnetic layer and the second magnetic layer, wherein the first magnetic layer abuts a nonmagnetic spacer layer of the read sensor and the second magnetic layer abuts the nonmagnetic coupling layer. 4. The magnetic read apparatus of claim 1 , wherein the shield structure further comprises a bottom shield located under and abutting the shield pinning structure. 5. The magnetic read apparatus of claim 1 , further comprising a side magnetic bias structure located on either side of the read sensor adjacent to a free layer of the read sensor. 6. The magnetic read apparatus of claim 5 , wherein the side magnetic bias structure is separated from the read sensor on the either side by an insulating layer. 7. The magnetic read apparatus of claim 1 , further comprising a rear bias structure, wherein the read sensor is between an air bearing surface of the magnetic read apparatus and the rear bias structure, and wherein the read sensor is separated from the rear bias structure by a nonmagnetic insulator layer. 8. The magnetic read apparatus of claim 7 , wherein the rear bias structure has a width in a cross-track direction that is greater than a track width of the read sensor in the cross-track direction, wherein the cross-track direction extends along a plane that is parallel to the air bearing surface. 9. The magnetic read apparatus of claim 1 , wherein the shield pinning structure is wider than the shield reference structure in a cross-track direction that is parallel to an air bearing surface. 10. A magnetic read apparatus comprising: a read sensor comprising a free layer and a nonmagnetic spacer layer; a top shield structure comprising: a first ferromagnetic layer; a second ferromagnetic layer; a nonmagnetic layer between the first ferromagnetic layer and the second ferromagnetic layer; an antiferromagnetic layer; and a top shield, wherein the antiferromagnetic layer is between the top shield and the second ferromagnetic layer; and a shield structure, wherein the read sensor is between the top shield structure and the shield structure. 11. The magnetic read apparatus of claim 10 , wherein the read sensor further comprises a capping layer between the free layer and the first ferromagnetic layer. 12. The magnetic read apparatus of claim 10 , further comprising: a bottom shield abutting a pinning layer of the shield structure; and a side magnetic bias structure located on either side of the read sensor. 13. The magnetic read apparatus of claim 10 , wherein the shield structure comprises a shield pinning structure and a shield reference structure separated by a nonmagnetic coupling layer. 14. The magnetic read apparatus of claim 13 , wherein the shield pinning structure comprises a pinning layer and a magnetic layer between the pinning layer and the nonmagnetic coupling layer. 15. The magnetic read apparatus of claim 14 , wherein the shield reference structure comprises a first magnetic layer, a second magnetic layer and a nonmagnetic layer between the first magnetic layer and the second magnetic layer. 16. The magnetic read apparatus of claim 13 , wherein the shield pinning structure is wider than the shield reference structure in a cross-track direction that is parallel to an air bearing surface. 17. A magnetic read apparatus comprising: a read sensor; a shield structure; a top shield structure comprising: a first ferromagnetic layer; a second ferromagnetic layer; a nonmagnetic layer between the first ferromagnetic layer and the second ferromagnetic layer; an antiferromagnetic layer; and a top shield, wherein the antiferromagnetic layer is between the top shield and the second ferromagnetic layer; and a bottom shield, wherein the read sensor is between the top shield structure and the shield structure; and wherein the shield structure is between the read sensor and the bottom shield. 18. The magnetic read apparatus of claim 17 , further comprising a capping layer between the read sensor and the first ferromagnetic layer of the top shield structure. 19. The magnetic read apparatus of claim 17 , wherein the shield structure comprises a shield pinning structure and a shield reference structure, and wherein the shield pinning structure is wider than the shield reference structure in a cross-track direction that is parallel to an air bearing surface. 20. The magnetic read apparatus of claim 19 , wherein the bottom shield is wider than the shield pinning structure in the cross-track direction.