Write head designs with sandwich trailing shield (STS) for high data rate perpendicular recording

We claim: 1. A perpendicular magnetic recording (PMR) writer, comprising: (a) a main pole with a leading side and a trailing side at an air bearing surface (ABS), and two sides that connect the leading side and trailing side and are formed equidistant from a center plane that is orthogonal to the ABS, the leading side adjoins a lead gap at the ABS and the trailing side adjoins a write gap at the ABS; (b) a gap layer surrounding the main pole, the gap layer includes the lead gap, the write gap having a bottom surface at a first plane at the ABS and a first cross-track width between two sides, and a first side gap which contacts one of the main pole sides on a first side of the center plane, and a second side gap that contacts the other of the main pole sides on a second side of the center plane; and (c) an all wrap around (AWA) shield structure, comprising: (1) a hot seed layer having a saturation magnetic moment (Ms) in a range of 19-24 kiloGauss (kG) adjoining a top surface of the write gap, and having the first cross-track width between two sides that are equidistant from the center plane, the hot seed magnetic layer extends from the ABS to a backside that is a first height from the ABS; (2) a first trailing shield (TS) layer with a Ms in a range of 16-24 kG and having a first down-track thickness (t 1 ) at the ABS, and a bottom surface with the first cross-track width between two sides formed equidistant from the center plane, and that adjoins a top surface of the hot seed layer, and extends to a backside that is at the first height from the ABS; (3) a second TS layer with a Ms in a range of 8-16 kG and that contacts the sides of the hot seed layer, the first TS layer, and write gap, and having a top surface formed coplanar with a top surface of the first TS layer, and with a bottom surface below the first plane; (4) a first side shield that adjoins the first side gap, and a second side shield that adjoins the second side gap wherein each of the first and second side shields has a first section of top surface that contacts the write gap at the first plane, and a second section of top surface that contacts the second TS layer at a variable down-track distance below the first plane; and (5) a leading shield that adjoins the leading gap, and contacts a bottom surface of each of the first and second side shields. 2. The PMR writer of claim 1 wherein the variable down-track thickness is greater than 0 nm at a side of the write gap at the first plane to a maximum of about 20 to 100 nm at a far side of the each of the first and second side shields. 3. The PMR writer of claim 1 wherein the first down-track thickness is about 1 micron. 4. The PMR writer of claim 1 wherein the first down-track thickness is about 0.1 to 0.5 micron, and the trailing shield structure further comprises a third TS layer having a Ms in the range of 16-24 kG and with a third down-track thickness (t 3 ) at the ABS where (t 1 +t 3 ) is about 1 micron, and a cross-track width greater than the first cross-track width. 5. The PMR writer of claim 4 wherein one or more of the first, second, and third TS layers, side shields, and leading shield are comprised of an alloy having a damping parameter α of ≥0.04, and that is one of FeNiM, FeCoM, and FeCoNiM where M is one of Re, Os, Ir, Rh, Ti, Ta, V, Cr, W, Mn, Mo, Cu, Zr, Nb, Hf, Ru, Pd, Pt, Ag, and Au, and the M content is about 1 to 15 atomic % in the alloy. 6. The PMR writer of claim 1 wherein the leading shield is part of a leading loop that comprises a leading shield connection (LSC) layer that is magnetically connected to a leading side of the leading shield.