Microstructured fiber optic oscillator and waveguide for fiber scanner

What is claimed is: 1. An optical fiber comprising: a waveguiding element extending along an axis, wherein the waveguiding element comprises a central core region and a cladding layer surrounding the central core region; a mechanical region surrounding the waveguiding element, wherein the mechanical region is positioned between the cladding layer and an outer periphery, and wherein the mechanical region comprises a first material having a first density; and a plurality of mass adjustment regions positioned within the mechanical region, wherein the plurality of mass adjustment regions comprise a second material having a second density less than the first density, wherein the plurality of mass adjustment regions comprises a plurality of rows of mass adjustment elements, wherein the plurality of rows are arranged concentrically around the waveguiding element, and wherein the optical fiber exhibits principal directions that are not unique. 2. The optical fiber of claim 1 , wherein the cladding layer and the mechanical region are concentric. 3. The optical fiber of claim 2 , wherein the cladding layer comprises a second material, the second material being the same as the first material, and wherein the central core region comprises a third material. 4. The optical fiber of claim 2 , wherein the cladding layer and the mechanical region comprise a unitary body. 5. The optical fiber of claim 1 , wherein the waveguiding element comprises a plurality of core regions, and wherein the cladding layer surrounds the plurality of core regions. 6. The optical fiber of claim 1 , wherein the plurality of mass adjustment regions comprises one or more gas-filled regions, air-filled regions, one or more polymer-filled regions, one or more glass-filled regions, one or more evacuated regions, or any combination of these. 7. The optical fiber of claim 1 , wherein the plurality of mass adjustment regions are arranged in a symmetric configuration around the axis. 8. The optical fiber of claim 1 , wherein the plurality of mass adjustment regions are arranged with axes parallel to the axis. 9. The optical fiber of claim 1 , wherein the optical fiber exhibits radially symmetric stiffness. 10. The optical fiber of claim 1 , wherein the optical fiber exhibits a percent difference between perpendicular moments of inertia of about 0.4% or less. 11. The optical fiber of claim 1 , wherein the optical fiber has an effective cantilever length, and wherein the plurality of mass adjustment regions increases a resonant oscillatory frequency of the optical fiber as compared to a comparable optical fiber having the effective cantilever length and comprising a corresponding waveguiding element that is identical to the waveguiding element and a corresponding mechanical region that is identical to the mechanical region except that the corresponding mechanical region does not include mass adjustment regions positioned between a corresponding cladding layer and a corresponding outer periphery of the comparable optical fiber. 12. The optical fiber of claim 1 , wherein the plurality of mass adjustment regions increases an effective cantilever length of the optical fiber for a given operating frequency as compared to a comparable optical fiber comprising a corresponding waveguiding element that is identical to the waveguiding element and a corresponding mechanical region that is identical to the mechanical region except that the corresponding mechanical region does not include mass adjustment regions positioned between a corresponding cladding layer and a corresponding outer periphery of the comparable optical fiber. 13. The optical fiber of claim 1 , wherein the optical fiber has a resonant frequency, and wherein the plurality of mass adjustment regions increases an effective cantilever length of the optical fiber as compared to a comparable optical fiber having the resonant frequency and comprising a corresponding waveguiding element that is identical to the waveguiding element and a corresponding mechanical region that is identical to the mechanical region except that the corresponding mechanical region does not include mass adjustment regions positioned between a corresponding cladding layer and a corresponding outer periphery of the comparable optical fiber. 14. A scanning fiber display comprising: an optical fiber, wherein the optical fiber includes: a waveguiding element extending along an axis, wherein the waveguiding element comprises a central core region and a cladding layer surrounding the central core region; a mechanical region surrounding the waveguiding element, wherein the mechanical region is positioned between the cladding layer and an outer periphery, and wherein the mechanical region comprises a first material having a first density; and a plurality of mass adjustment regions positioned within the mechanical region, wherein the plurality of mass adjustment regions comprise a second material having a second density less than the first density, wherein the plurality of mass adjustment regions comprises a plurality of rows of mass adjustment elements, wherein the plurality of rows are arranged concentrically around the waveguiding element, and wherein the optical fiber exhibits principal directions that are not unique; and an actuator in mechanical contact with the optical fiber, the actuator for inducing an oscillation of the optical fiber. 15. The scanning fiber display of claim 14 , wherein the actuator comprises a piezoelectric transducer, an electromagnetic voice coil, or a thermal actuator. 16. The scanning fiber display of claim 14 , wherein the actuator comprises a two-dimensional actuator for controlling motion of an end of the optical fiber in two dimensions. 17. The scanning fiber display of claim 14 , further comprising a visible optical source in optical communication with the waveguiding element of the optical fiber. 18. The scanning fiber display of claim 14 , further comprising a multi-color switchable optical source in optical communication with the waveguiding element of the optical fiber. 19. An optical fiber comprising: a waveguiding element extending along an axis, wherein the waveguiding element comprises a central core region and a cladding layer surrounding the central core region; a mechanical region surrounding the waveguiding element, wherein the mechanical region is positioned between the cladding layer and an outer periphery, and wherein the mechanical region comprises a first material having a first density; and a plurality of mass adjustment regions positioned within the mechanical region, wherein the plurality of mass adjustment regions comprise a second material having a second density less than the first density, wherein the optical fiber exhibits principal directions that are not unique, and wherein the optical fiber exhibits a percent difference between perpendicular moments of inertia of about 0.4% or less. 20. The optical fiber of claim 19 , wherein the cladding layer and the mechanical region are concentric. 21. The optical fiber of claim 20 , wherein the cladding layer comprises a second material, the second material being the same as the first material, and wherein the central core region comprises a third material. 22. The optical fiber of claim 20 , wherein the cladding layer and the mechanical region comprise a unitary body. 23. The optical fiber of claim 19 , wherein the waveguiding element comprises a plurality of core regions, and wherein the c