Waveguide of a write head with reduced cross sectional area proximate a near-field transducer

What is claimed is: 1. A write head, comprising: a near-field transducer near a media-facing surface of the write head; a waveguide comprising a core with a first side disposed proximate to the near-field transducer, the core overlapping the near-field transducer at a substrate-parallel plane, the core comprising two rectangular steps on a second side facing away from the first side, the two rectangular steps causing a reduced thickness of the core normal to the substrate-parallel plane, a center region between the two rectangular steps having an unreduced thickness; and a cladding layer that encompassing the second side of the core and that fills in the two rectangular steps. 2. The write head of claim 1 , wherein the two rectangular steps reduce reflections back to a light source optically coupled to the waveguide. 3. The write head of claim 1 , wherein the core further comprises a second taper that reduces a crosstrack width of the core as it approaches the media-facing surface. 4. The write head of claim 1 , wherein the core further comprises a first crosstrack width over the near-field transducer, a second crosstrack width near the media-facing surface, and a third crosstrack width at an end of the near-field transducer that faces away from the media-facing surface, the first crosstrack width being different than the second and third crosstrack widths. 5. A write head, comprising: a near-field transducer near a media-facing surface of the write head; and a waveguide comprising a core having an end portion near the media-facing surface that overlaps the near-field transducer at a substrate-parallel plane, the end portion comprising: a first crosstrack width over the near-field transducer; a second crosstrack width at the media-facing surface, and a third crosstrack width at an end of the near-field transducer that faces away from the media-facing surface, the first crosstrack width being different than the second and third crosstrack widths. 6. The write head of claim 5 , wherein the difference between the first crosstrack width and the second and third crosstrack widths reduces reflections back to a light source optically coupled to the waveguide. 7. The write head of claim 5 , wherein the third crosstrack width is less than the first and second crosstrack widths. 8. The write head of claim 7 , wherein the end portion further comprises tapered edges extending from the near-field transducer to the media-facing surface that result in a reduced crosstrack width of the core as it approaches the media-facing surface. 9. The write head of claim 8 , wherein the second crosstrack width of the core at the media-facing surface is less than the first crosstrack width. 10. The write head of claim 7 , wherein the end portion comprises curved concave depressions that result in the first crosstrack width being less than the than the second and third crosstrack widths. 11. The rite head of claim 5 , wherein the third crosstrack width is greater than the first and second crosstrack widths. 12. The write head of claim 11 , wherein the end portion comprises a constant crosstrack width extending from the near-field transducer and the media-facing surface. 13. The write head of claim 11 , wherein the end portion comprises curved, concave, protrusions that result in the first crosstrack width being greater than the than the second and third crosstrack widths. 14. A write head, comprising: a near-field transducer near a media-facing surface of the write head; and a waveguide comprising a core having an end portion near the media-facing surface that overlaps the near-field transducer at a substrate-parallel plane, the end portion comprising tapered edges that each reduce a crosstrack width of the core as it approaches the media-facing surface by a value of dX, the value of dX being nominally about 19% of the crosstrack width, the tapered edges beginning at a distance dZ from the media-facing surface, and the tapered edges reducing reflections back to a light source optically coupled to the waveguide. 15. The write head of claim 11 , wherein the distance dZ is nominally between about 94% and 106% the crosstrack width. 16. The write head of claim 11 , wherein the core comprises a first side disposed proximate to the near-field transducer, the core comprising one of a step or a taper on a second side facing away from the first side, the step or the taper causing a reduced thickness of the core normal to the substrate-parallel plane. 17. The write head of claim 1 , wherein a crosstrack width of the center region is at least 25% that of a crosstrack width of the core at the media-facing surface. 18. The write head of claim 3 , wherein the second taper reduces the crosstrack width of the core as it approaches the media-facing surface by a value of dX, the value of dX being between ⅛ and ¼ of the crosstrack width of the core, the second taper reducing reflections back to a light source optically coupled to the waveguide. 19. The write head of claim 4 , wherein opposing edges of the core in a region where the core overlaps the near-field transducer comprise symmetric, curved convex or concave edges. 20. The write head of claim 8 , wherein the tapered edges reduce the crosstrack width of the core as it approaches the media-facing surface by a value of dX, the value of dX being between ⅛ and ¼ of the crosstrack width of the core, the second taper reducing reflections back to a light source optically coupled to the waveguide.