Dual write heater for slider surface topography control in double perpendicular magnetic recording (PMR) writers

We claim: 1. A dual perpendicular magnetic recording (PMR) writer, comprising: (a) a first main pole layer in a first PMR writer having a first main pole tip with a leading side and trailing side at an air bearing surface (ABS), and bisected by a first plane that is at a first cross-track position and is orthogonal to the ABS, and wherein the first PMR writer is formed on a slider; (b) a second main pole layer in a second PMR writer formed on the slider, and having a second main pole tip with a leading side and trailing side at the ABS, and bisected by a second plane that is orthogonal to the ABS, wherein the first and second planes are equidistant from a center plane that separates the first and second PMR writers; (c) a bucking coil (BC) that is formed below the first and second main pole layers, and is recessed from the ABS, and wherein the bucking coil is connected to a driving coil by an interconnect; (d) the driving coil (DC) that is formed above the first and second main pole layers, is recessed from the ABS, and contacts a top surface of the interconnect; (e) a first dynamic fly height (DFH) heater coil (WDFH1) formed in the first PMR writer, and between the bucking coil and the driving coil; and (f) a second DFH heater coil (WDFH2) formed in the second PMR writer, and between the bucking coil and the driving coil, wherein WDFH1 and WDFH2 are configured to adjust a close point proximate to the first plane when the first PMR writer is selected for a write process, and to adjust the close point proximate to the second plane when the second PMR writer is selected for a write process. 2. The dual PMR writer of claim 1 wherein the bucking coil has a BC first outer portion in the first PMR writer, a BC second outer portion in the second PMR writer, and a BC center portion at the center plane, and wherein the interconnect adjoins a backend of the BC center portion. 3. The dual PMR writer of claim 2 wherein the driving coil has a DC first outer portion in the first PMR writer, a DC second outer portion in the second PMR writer, and a DC center portion at the center plane, and wherein the interconnect adjoins a backend of the DC center portion. 4. The dual PMR writer of claim 3 wherein the write process with the first PMR writer comprises sending a write current through the DC first outer portion, DC center portion, interconnect, BC center portion, and BC first outer portion, and activating at least WDFH1 by sending a current from a WDFH1+ heater pad through WDFH1 to a ground (H/G) pad at the center plane. 5. The dual PMR writer of claim 4 wherein WDFH1 has an outer portion connected to the WDFH1+ heater pad, a front side that is recessed behind a first back gap connection (BGC) in the first PMR writer, and an inner portion having a serpentine shape that extends from the front side to a first backside behind the interconnect, and wherein the first backside adjoins a second backside of WDFH2 at a backend at the center plane. 6. The dual PMR writer of claim 3 wherein the write process with the second PMR writer comprises sending a write current through the DC second outer portion, DC center portion, interconnect, BC center portion, and BC second outer portion, and activating at least WDFH2 by sending a current from a WDFH2+ heater pad through WDFH2 to a H/G pad. 7. The dual PMR writer of claim 6 wherein WDFH2 has an outer portion connected to the WDFH2+ heater pad, a front side that is recessed behind a second BGC in the second PMR writer, and an inner side having a serpentine shape that extends from the WDFH2 front side to a second backside behind the interconnect, and wherein the second backside adjoins a first backside of WDFH1 at a backend at the center plane. 8. The dual PMR writer of claim 1 wherein WDFH1 and WDFH2 have a cross-track footprint less than a cross-track footprint of the bucking coil. 9. The dual PMR writer of claim 1 wherein WDFH1 and WDFH2 are made of Cu, W, or Ta and have a thickness from about 400 Angstroms to 1000 Angstroms. 10. The dual PMR writer of claim 1 wherein a first power is applied to WDFH1 and a second power is applied to WDFH2 to give a WDFH1:WDFH2 power ratio that is from 100:0 to 0:100 in order to adjust a close point of a touchdown area at the ABS and along a cross-track direction that is toward the first plane when the first PMR writer is selected for the write process, or toward the second plane when the second PMR writer is selected for the write process. 11. The dual PMR writer of claim 10 wherein the WDFH1:WDFH2 power ratio further adjusts a size of the touchdown area. 12. A head gimbal assembly (HGA) comprising a suspension on which the slider of claim 1 is formed, and wherein the suspension comprises a load beam with one end connected to a flexure, and a base plate connected to the other end of the load beam. 13. A magnetic recording apparatus, comprising: (a) the HGA according to claim 12 ; (b) a magnetic recording medium positioned opposite to the slider; (c) a spindle motor that rotates and drives the magnetic recording medium; and (d) a device that supports the slider, and that positions the slider relative to the magnetic recording medium. 14. A dual perpendicular magnetic recording (PMR) writer, comprising: (a) a first main pole layer in a first PMR writer having a first main pole tip with a leading side and trailing side at an air bearing surface (ABS), and bisected by a first plane that is at a first cross-track position and is orthogonal to the ABS, and wherein the first PMR writer is formed on a slider; (b) a second main pole layer in a second PMR writer formed on the slider, and having a second main pole tip with a leading side and trailing side at the ABS, and bisected by a second plane that is orthogonal to the ABS, wherein the first and second planes are equidistant from a center plane that separates the first and second PMR writers; (c) a first bucking coil that is formed below the first main pole layer in the first PMR writer, and is connected to a first driving coil or a common driving coil with a first interconnect; (d) a second bucking coil formed below the second main pole layer in the second PMR writer; and is connected to a second driving coil or the common driving coil with a second interconnect; (e) a first dynamic fly height (DFH) heater coil (WDFH1) formed above the first bucking coil in the first PMR writer; and (f) a second DFH heater coil (WDFH2) formed above the second bucking coil in the second PMR writer, wherein WDFH1 and WDFH2 are configured to adjust a close point proximate to the first plane when the first PMR writer is selected for a write process, and to adjust the close point proximate to the second plane when the second PMR writer is selected for a write process. 15. The dual PMR writer of claim 14 wherein a write process with the first PMR writer comprises sending a write current through the first bucking coil, first interconnect, and through the first driving coil or common driving coil, and activating WDFH1 by sending a current from a WDFH1+ heater pad through WDFH1 to a ground (H/G) pad at the center plane. 16. The dual PMR writer of claim 15 wherein WDFH1 has an outer portion connected to the WDFH1+ heater pad, a front side that is recessed behind the first interconnect, and a center portion having a serpentine shape that extends from the WDFH1 front side to a first backside, and wherein the first backside adjoins a second backside of WDFH2 at the center plane. 17. The dual PMR writer of claim 14 wherein a write process with the second PMR writer comprises sending a write