Using window underlayer structures to protect near field transducers on heat assisted magnetic recording heads

What is claimed is: 1. A magnetic head comprising: an underlayer; a near field transducer between the underlayer and a media facing surface; and a waveguide configured to direct energy from a light source to the near field transducer, wherein the waveguide is at least partially surrounded by a cladding layer; and wherein the underlayer surrounds at least a portion of the waveguide and the cladding layer. 2. The magnetic head of claim 1 , wherein the near field transducer comprises an aperture and a main body, and wherein the near field transducer occupies a portion of the media facing surface. 3. The magnetic head of claim 2 , wherein the aperture is C-shaped. 4. The magnetic head of claim 1 , wherein the underlayer surrounds at least a portion of the near field transducer. 5. The magnetic head of claim 1 , wherein a portion of the underlayer extends to the media facing surface. 6. The magnetic head of claim 1 , wherein the underlayer has a height of no more than fifteen microns in a direction that is perpendicular to the media facing surface. 7. The magnetic head of claim 1 , wherein the underlayer has a thickness of no more than five microns in a direction parallel to the media facing surface. 8. The magnetic head of claim 1 , wherein the underlayer has a width of no more than two microns in a direction that is perpendicular to the media facing surface and perpendicular to a direction of media travel. 9. The magnetic head of claim 1 , further comprising a fill material at least partially surrounding the underlayer, the waveguide, and the cladding layer. 10. The magnetic head of claim 9 , wherein the underlayer has a lower coefficient of thermal expansion than the fill material. 11. The magnetic head of claim 9 , wherein the underlayer has a higher coefficient of thermal conductivity than the fill material. 12. The magnetic head of claim 1 , wherein the cladding layer comprises a first cladding layer that extends adjacent to a first side of the waveguide in a direction perpendicular to the media facing surface, and wherein the first cladding layer forms a recess between the waveguide and the near field transducer. 13. The magnetic head of claim 1 , wherein the cladding layer comprises a first cladding layer that extends adjacent to a first side of the waveguide in a direction perpendicular to the media facing surface, and wherein a portion of the first cladding layer extends along a side of the near field transducer and forms a portion of the media facing surface. 14. The magnetic head of claim 1 , wherein the underlayer comprises at least one of fused silica, aluminum nitride, silicon nitride, and silicon carbide. 15. A magnetic head comprising: an underlayer; a near field transducer between the underlayer and a media facing surface; a waveguide configured to direct energy from a light source to the near field transducer; a cladding layer at least partially surrounding the waveguide, wherein at least a portion of the cladding layer is between the near field transducer and the waveguide; and a fill material at least partially surrounding the underlayer, the waveguide, and the cladding layer. 16. The magnetic head of claim 15 , wherein the underlayer surrounds at least a portion of the waveguide and the cladding layer. 17. The magnetic head of claim 15 , wherein the near field transducer comprises an aperture and a main body, and wherein at least a portion of the aperture and the main body occupy a portion of the media facing surface. 18. The magnetic head of claim 15 , wherein the underlayer comprises at least one of fused silica, aluminum nitride, silicon nitride, and silicon carbide, and wherein the fill material comprises alumina. 19. A data storage system comprising: a magnetic media; and a magnetic head configured to write data to the magnetic media, the magnetic head comprising: an underlayer; a near field transducer between the underlayer and a media facing surface; and a waveguide configured to direct energy from a light source to the near field transducer, wherein the underlayer surrounds at least a portion of the waveguide and the near field transducer. 20. The data storage system of claim 19 , wherein the magnetic head further comprises a magnetic lip at the media facing surface, wherein the magnetic lip is magnetically coupled to a pole of the magnetic head, and wherein the near field transducer is adjacent to the magnetic lip.