Suppressing surface modes in fibers

What is claimed is: 1. An optical fiber having an axial cross section, the axial cross section having an axial center, the axial cross section further having a reference direction that extends radially in one direction from the axial center, the optical fiber comprising: a hollow core located substantially at the axial center; and a cladding matrix surrounding the hollow core, the cladding matrix comprising: cladding holes having cladding-hole properties; struts located between cladding holes, the struts having substantially uniform properties; and n non-uniform modified holes disposed in the cladding matrix at various radial distances from the axial center, n being an integer multiple of 6, the non-uniform modified holes further being disposed in the cladding matrix at approximately sixty degree (60°) angle increments from the reference direction, wherein the non-uniform modified holes have modified properties that differ from the cladding-hole properties, and wherein at least one modified hole has at least one modified property that differs from that of a second modified hole. 2. The optical fiber of claim 1 , n being 6. 3. The optical fiber of claim 1 , n being 12. 4. The optical fiber of claim 1 , n being 18. 5. The optical fiber of claim 1 , further comprising a shunt core located in the cladding matrix. 6. The optical fiber of claim 1 , the modified holes being located along linear paths that extend radially outward from the axial center. 7. The optical fiber of claim 1 , wherein the non-uniform modified holes vary radially and do not vary azimuthally. 8. The optical fiber of claim 1 , wherein the non-uniform modified holes vary azimuthally and do not vary radially. 9. The optical fiber of claim 1 , wherein the non-uniform modified holes vary both radially and azimuthally. 10. In a manufacturing process using an outer tube having a substantially circular axial cross section, the axial cross section having an axial center, the axial cross section further having a reference direction that extends radially in one direction from the axial center, a process comprising the steps of: arranging capillary tubes in the outer tube to form a matrix having a hollow region at the axial center; and positioning n non-uniform modified tubes among the capillary tubes, the non-uniform modified tubes having modified properties, n being an integer multiple of 6, the non-uniform modified tubes being positioned at various radial distances from the axial center, the non-uniform modified tubes further being positioned at approximately sixty degree (60°) angle increments from the reference direction, and wherein at least one modified hole has at least one modified property that differs from that of a second modified hole. 11. The process of claim 10 , each modified tube having its respective hole diameter, wall thickness, node glass area, surface roughness, material composition, dopant type, and dopant concentration. 12. The process of claim 10 , n being 6. 13. The process of claim 10 , n being 12. 14. The process of claim 10 , n being 18. 15. The process of claim 10 , wherein the non-uniform modified holes vary radially and do not vary azimuthally. 16. The process of claim 10 , wherein the non-uniform modified holes vary azimuthally and do not vary radially. 17. The process of claim 10 , wherein the non-uniform modified holes vary both radially and azimuthally.