Multimode fiber combiners

We claim: 1. An optical waveguide assembly, comprising: a waveguide tube member including an input portion, a central portion, and an output portion; and a plurality of closely packed optical waveguides situated in the waveguide tube member, the closely packed optical waveguides having respective input portions with selected polygonal cross-sections; wherein the cross-section of the waveguide tube member central portion and the polygonal cross-sections of the optical waveguide input portions in the waveguide tube member central portion taper along the length of the waveguide tube member central portion such that a cross-sectional area of the waveguide tube member output portion is less than about half the cross-sectional area of the waveguide tube member input portion; wherein the polygonal cross-sections of the closely packed optical waveguide input portions are situated in the waveguide tube member input portion so that each optical waveguide input portion in the waveguide tube member input portion is in contact with but not fused to adjacent optical waveguide input portions. 2. The optical waveguide assembly of claim 1 , wherein the plurality of optical waveguides includes first and second sets of optical fibers having different polygonal cross-sections, wherein the optical fibers of the first set have a substantially common polygonal cross-section. 3. The optical waveguide assembly of claim 2 , wherein the optical fibers of the first set have an octagonal cross-section and the optical fibers of the second set have a square cross-section. 4. The optical waveguide assembly of claim 1 , wherein the plurality of optical waveguides in the waveguide tube member central portion are fused and tapered. 5. The optical waveguide assembly of claim 4 , wherein the plurality of optical waveguides each includes a core situated in the waveguide tube member input portion that contacts one or more adjacent optical waveguide cores. 6. The optical waveguide assembly of claim 5 , wherein the cores of the plurality of optical waveguides are tapered and fused together so as to form a continuous circular output surface at the waveguide tube member output portion. 7. The optical waveguide assembly of claim 6 , further comprising a double-clad output fiber optically coupled to the output surface. 8. The optical waveguide assembly of claim 1 , wherein each optical waveguide in the waveguide tube member input portion has a hexagonal cross-section. 9. An optical waveguide assembly, comprising: a waveguide tube member including an input portion, a central portion, and an output portion; and a plurality of closely packed optical waveguides situated in the waveguide tube member, the closely packed optical waveguides having respective input portions with selected polygonal cross-sections; wherein the cross-section of the waveguide tube member central portion and the polygonal cross-sections of the optical waveguide input portions in the waveguide tube member central portion taper along the length of the waveguide tube member central portion such that a cross-sectional area of the waveguide tube member output portion is less than about half the cross-sectional area of the waveguide tube member input portion; wherein at least one of the optical waveguides in the waveguide tube member input portion includes a core having a rectangular cross-section and a cladding having a circular cross-section and an outer cladding diameter defining an outer cladding boundary, the outer cladding diameter approximately corresponding to a diagonal of the rectangular core such that corners of the rectangular core are less than about 15 μm from the outer cladding boundary. 10. A method, comprising: selecting a plurality of optical waveguides having predetermined polygonal cross-sections for arrangement in a closely packed relationship; arranging respective input portions of the optical waveguides to contact one or more adjacent waveguides of the plurality to form a waveguide array; sheathing the waveguide array with an optical waveguide sheath tube member having an input portion, a central portion, and an output portion; selecting taper parameters associated with the sheathed waveguide array so that the polygonal cross-sections of the optical waveguides are situated in the optical waveguide tube member input portion so that each optical waveguide is in contact with but not fused to adjacent optical waveguides; and tapering at least a portion of the sheathed waveguide array so as to reduce the cross-sectional areas of the plurality of optical waveguides and the optical waveguide tube member central portion so as to form a tapered waveguide coupler such that a cross-sectional area of the optical waveguide tube member output portion is less than about half the cross-sectional area of the waveguide tube member input portion. 11. The method of claim 10 wherein each optical waveguide of the array of optical waveguides has a common cross-section, the waveguide array defining interstitial spaces, and a plurality of optical waveguides is situated to at least partially fill the interstitial space. 12. The method of claim 11 , wherein the common cross-section is octagonal and each optical waveguide at least partially filling the interstitial space has a square cross-section. 13. The method of claim 10 , further comprising cleaving the tapered waveguide coupler to form a coupler output surface of the optical waveguide tube member output portion. 14. The method of claim 13 , wherein the coupler output surface has a cross-sectional area less than about twice the cross-sectional area of a selected one of the optical waveguides. 15. The method of claim 10 , wherein a central optical waveguide of the waveguide array includes an actively doped core. 16. The optical waveguide assembly of claim 1 , wherein the closely packed optical waveguides have respective pre-input portions situated external to the waveguide tube member, each pre-input portion extending in free space from a respective input portion. 17. The optical waveguide assembly of claim 1 , wherein the optical waveguides are solid optical fibers. 18. The optical waveguide assembly of claim 1 , further comprising an optical fiber having a circular cross-section and centrally situated relative to the plurality of closely packed optical waveguides situated in the waveguide tube member. 19. The optical waveguide assembly of claim 18 , wherein a core of the central fiber is actively doped. 20. The optical waveguide assembly of claim 9 , wherein the rectangular cross-section is square.