Notched leading-edge shield for assisted magnetic recording head

The invention claimed is: 1. A recording head comprising: a near-field transducer proximate a media-facing surface of the recording head; a write pole having a leading edge proximate to and facing the near-field transducer at the media-facing surface; a first coil that is magnetically coupled to the write pole; a magnetic shield facing the leading edge of the write pole at the media-facing surface and magnetically coupled thereto, the magnetic shield comprising: a first portion separated from the leading edge of the write pole by a first downtrack distance; and second and third portions offset from the write pole in first and second cross track directions, the first and second portions separated from the leading edge by a second downtrack distance that is less than the first downtrack distance; and a second coil that is magnetically coupled to the magnetic shield, wherein the write pole and the magnetic shield form a flux closure path that is activated by first and second currents respectively applied to the first and second coils. 2. The recording head of claim 1 , wherein a crosstrack gap between the second and third portions of the magnetic shield is between 200 nm and 300 nm. 3. The recording head of claim 1 , wherein the second downtrack distance is at least 125 nm. 4. The recording head of claim 1 , wherein the first downtrack distance is greater than 400 nm. 5. The recording head of claim 1 , wherein the first, second and third portions form a notch that faces the near-field transducer, the notch being filled with a dielectric. 6. The recording head of claim 5 , wherein the notch comprises a rectangular, triangular, semicircular, or trapezoidal notch. 7. The recording head of claim 1 , wherein the first, second and third portions are covered by a low-loss optical layer. 8. The recording head of claim 7 , wherein the low-loss optical layer comprises gold. 9. The recording head of claim 1 , wherein the first current and second currents are different, resulting in an unbalanced magnetomotive force applied by the first and second coils. 10. A recording head comprising: a near-field transducer proximate a media-facing surface of the recording head; a waveguide that delivers light to the near-field transducer; a write pole having a leading edge proximate to and facing the near-field transducer at the media-facing surface; a first coil that is magnetically coupled to the write pole; a magnetic shield facing the leading edge of the write pole at the media facing surface and magnetically coupled to the write pole and optically shielded from the waveguide, the magnetic shield comprising a notch centered over the near-field transducer, the notch being wider in a downtrack direction than the near-field transducer at the media facing surface, and a second coil that is magnetically coupled to the magnetic shield, wherein the write pole and the magnetic shield form a flux closure path that is activated by first and second currents respectively applied to the first and second coils. 11. The recording head of claim 10 , wherein a crosstrack dimension of the notch is between 200 nm and 300 nm. 12. The recording head of claim 10 , wherein a downtrack dimension of the notch is at least 125 nm. 13. The recording head of claim 10 , wherein the notch comprises a rectangular, triangular, semicircular, or trapezoidal notch. 14. The recording head of claim 10 , wherein the optical shielding is provided by a low-loss optical layer covering a portion of the magnetic shield near the media-facing surface. 15. The recording head of claim 10 , wherein the first current and second currents are different, resulting in an unbalanced magnetomotive force applied by the first and second coils. 16. A method comprising: illuminating, via a waveguide, a near-field transducer proximate a media-facing surface of a recording head, the near-field transducer causing surface plasmons to create a hotspot on a magnetic recording medium in response to the illumination; input a first current through a first coil that is magnetically coupled to a write pole, the write pole having a leading edge proximate to and facing the near-field transducer at the media-facing surface; and input a second current through a second coil that is coupled to a magnetic shield that faces the leading edge of the write pole and is magnetically coupled thereto, the magnetic shield comprising a notch centered over the near-field transducer, the magnetic shield coated with a low-loss optical layer that reduces interference with the waveguide, the write pole, the magnetic shield, and the recording medium forming a flux closure path that is activated by the first and second currents. 17. The method of claim 16 , wherein the first current is greater than the second current. 18. The method of claim 16 , wherein the first current and second currents are different, resulting in an unbalanced magnetomotive force applied by the first and second coils.