Fiber based finishing tools

What is claimed is: 1. A finishing tool for modifying a surface of a part, comprising: a base, wherein the base is one or more of rotated and translated; and one or more fibers coupled to the base; wherein a base portion of each of the one or more fibers is disposed at a first angle relative to a major axis of the base, wherein the first angle is equal to or between −90 degrees and 90 degrees; wherein each of the one or more fibers has a sufficient flexibility such that, in operation, an end portion of each of the one or more fibers is disposed at a second angle relative to the major axis of the base, wherein the second angle is approximately −90 degrees or 90 degrees, substantially parallel to the surface of the part; wherein each of the one or more fibers has a sufficient rigidity such that, when the end portion of each of the one or more fibers is disposed substantially parallel to the surface of the part in operation, the end portion of each of the one or more fibers removes only a relatively higher topographical feature of a Mid-Spatial Frequency (MSF) structure and is suspended above a relatively lower topographical feature of the MSF structure; and wherein the end portion of each of the one or more fibers disposed substantially parallel to the surface of the part contacts a plurality of MSF structure apices over a distance of at least 5 mm without contacting intervening relatively lower topographical features. 2. The finishing tool of claim 1 , wherein the major axis corresponds to a tool shaft. 3. The finishing tool of claim 1 , wherein the one or more fibers are disposed circumferentially about one or more of a bottom surface and a side surface of the base. 4. The finishing tool of claim 1 , wherein each of the one or more fibers has a length of greater than about 5 mm and a cross-sectional diameter or thickness along its length of greater than about 100 microns. 5. The finishing tool of claim 1 , wherein each of the one or more fibers has a varying cross-sectional diameter or thickness along its length. 6. The finishing tool of claim 1 , wherein each of the one or more fibers has a varying cross-sectional shape along its length. 7. The finishing tool of claim 1 , wherein each of the one or more fibers has a varying composition along its length. 8. The finishing tool of claim 1 , wherein, in operation, the base portion and the end portion of each of the one or more fibers is coupled by a continuously curved intermediate portion. 9. The finishing tool of claim 1 , further comprising a weighted structure coupled to an end of each of the one or more fibers, wherein the weighted structure has a diameter, thickness, or cross-sectional area that is greater than the diameter, thickness, or cross-sectional area of the associated fiber. 10. The finishing tool of claim 1 , further comprising an abrasive disposed about the one or more fibers adjacent to the surface of the part. 11. A method for modifying a surface of a part, comprising: providing a finishing tool, comprising: a base, wherein the base is one or more of rotated and translated; and one or more fibers coupled to the base; wherein a base portion of each of the one or more fibers is disposed at a first angle relative to a major axis of the base, wherein the first angle is equal to or between −90 degrees and 90 degrees; wherein each of the one or more fibers has a sufficient flexibility such that, in operation, an end portion of each of the one or more fibers is disposed at a second angle relative to the major axis of the base, wherein the second angle is approximately −90 degrees or 90 degrees, substantially parallel to the surface of the part; and wherein each of the one or more fibers has a sufficient rigidity such that, when the end portion of each of the one or more fibers is disposed substantially parallel to the surface of the part in operation, the end portion of each of the one or more fibers removes only a relatively higher topographical feature of a Mid-Spatial Frequency (MSF) structure and is suspended above a relatively lower topographical feature of the MSF structure; and contacting the end portion of each of the one or more fibers with the relatively higher topographical feature of the MSF structure above the relatively lower topographical feature of the MSF structure; wherein the end portion of each of the one or more fibers disposed substantially parallel to the surface of the part contacts a plurality of MSF structure apices over a distance of at least 5 mm without contacting intervening relatively lower topographical features. 12. The method of claim 11 , wherein the major axis corresponds to a tool shaft. 13. The method of claim 11 , wherein the one or more fibers are disposed circumferentially about one or more of a bottom surface and a side surface of the base. 14. The method of claim 11 , wherein each of the one or more fibers has a length of greater than about 5 mm and a cross-sectional diameter or thickness along its length of greater than about 100 microns. 15. The method of claim 11 , wherein each of the one or more fibers has a varying cross-sectional diameter or thickness along its length. 16. The method of claim 11 , wherein each of the one or more fibers has a varying cross-sectional shape along its length. 17. The method of claim 11 , wherein each of the one or more fibers has a varying composition along its length. 18. The method of claim 11 , wherein, in operation, the base portion and the end portion of each of the one or more fibers is coupled by a continuously curved intermediate portion. 19. The method of claim 11 , wherein the finishing tool further comprises a weighted structure coupled to an end of each of the one or more fibers, wherein the weighted structure has a diameter, thickness, or cross-sectional area that is greater than the diameter, thickness, or cross-sectional area of the associated fiber. 20. The method of claim 11 , further comprising providing an abrasive disposed about the one or more fibers adjacent to the surface of the part. 21. A finishing tool for modifying a surface of a part, comprising: a base, wherein the base is one or more of rotated and translated; and one or more fibers coupled to the base at both ends of each of the one or more fibers; wherein, in operation with the base being rotated, a middle portion of each of the one or more fibers is disposed substantially parallel to the surface of the part; wherein each of the one or more fibers is flexible but has a sufficient rigidity such that, when the middle portion of each of the one or more fibers is disposed substantially parallel to the surface of the part in operation with the base being rotated, the middle portion of each of the one or more fibers removes only a relatively higher topographical feature of a Mid-Spatial Frequency (MSF) structure and is suspended above a relatively lower topographical feature of the MSF structure; and wherein the middle portion of each of the one or more fibers disposed substantially parallel to the surface of the part contacts a plurality of MSF structure apices over a distance of at least 5 mm without contacting intervening relatively lower topographical features. 22. The finishing tool of claim 21 , wherein, in operation with the base being rotated, each of the one or more fibers forms a continuously curved loop.