Perpendicular magnetic recording (PMR) writer with recessed leading shield

What is claimed is: 1. A write head for perpendicular magnetic recording (PMR) comprising: a main pole, tapered along a leading edge to produce a distal narrowing, having a distal pole tip that terminates in an air bearing surface (ABS) plane; a trailing shield (TS) formed at a trailing edge side of said pole tip, said TS having a distal planar edge that is co-planar with said ABS plane; horizontally disposed side shields (SS) symmetrically formed to each side of said pole tip, said SS having distal planar edges that are co-planar with said ABS plane; a leading shield (LS) layer formed at a leading edge side of said pole tip, wherein said LS layer has a planar distal edge comprising two connected portions, each parallel to said ABS plane, wherein a first portion has a distal edge that is co-planar with said ABS plane or is positioned proximally away therefrom and parallel with said ABS plane and a second portion, formed in said first portion, that is recessed proximally relative to said first portion; a leading edge taper (LET) layer, independent of and separated from said recessed portion of said leading shield (LS) layer, said LET layer being formed adjacent to said leading shield layer and between said recessed portion of said leading shield layer and said pole tip, wherein a tapered trailing edge surface of said leading edge taper (LET) layer is conformally adjacent to said tapered leading edge of said main pole and has a planar distal edge that is parallel to said ABS plane and parallel to and positioned independently of said distal edge of said LS layer; wherein either said first portion of said LS layer or said planar distal edge of said LET layer is recessed proximally away from said ABS plane or both said first portion of said LS layer and said planar distal edge of said LET layer are recessed proximally away from said ABS plane, whereby a reduction in return magnetic flux to said LET layer and said recessed portion of said LS layer occurs at said leading edge side of said main pole and a corresponding increase in return magnetic flux occurs at the trailing edge side of said main pole. 2. The write head of claim 1 wherein said SS have a throat height of approximately 600 nm. 3. The write head of claim 1 wherein said recessed portion of said LS layer has a cross-track width of up to approximately 20 μm. 4. The write head of claim 1 wherein said trailing shield (TS) includes a small layer of high saturation moment material of Bs of approximately 24 kG immediately adjacent to the pole tip whereas the remainder of said TS is formed of low saturation material of Bs between 16 and 19 kG. 5. The write head of claim 1 wherein the material for said LS layer and LET layer can be independently chosen, but shall have its Bs in a range between 1 kG and 19 kG and lower than that for the SS material. 6. The write head of claim 1 wherein all shields that are immediately adjacent to said main pole are nevertheless separated from said main pole by gap regions that are filled with dielectric material or non-magnetic metals. 7. A head gimbal assembly, comprising the write head of claim 1 , wherein said write head is mounted in a slider; a suspension that elastically supports said slider-mounted write head, wherein said suspension has a flexure to which said slider-mounted write head is joined, a load beam with one end connected to said flexure and a base plate connected to the other end of said load beam. 8. A magnetic recording apparatus, comprising: the head gimbal assembly of claim 7 ; a magnetic recording medium positioned opposite to said slider; a spindle motor that rotates and drives said magnetic recording medium; a device that supports the slider and that positions said slider relative to said magnetic recording medium.