Monolithic two-dimensional optical fiber array

What is claimed is: 1. A two-dimensional (2D) array component for supporting a plurality of individual optical fibers in a 2D configuration exhibiting a predetermined pitch, the array component comprising: a non-precision fiber guide block including a plurality of through-holes arranged in a 2D array configuration, the plurality of through-holes disposed to exhibit the predetermined pitch, each through-hole having a diameter D t to accommodate a coated optical fiber; a precision output element including a plurality of apertures arranged in the 2D array configuration, the plurality of apertures disposed to exhibit the predetermined pitch, each aperture having a diameter D a on the order of a stripped optical fiber, where D a <D t ; and a mounting flange for supporting the fiber guide block and the precision output element in an aligned configuration such that a 1×N array of pre-aligned optical fibers may be inserted through a rear opening of the mounting flange, pass through the fiber guide block through-holes and then through the precision output element apertures so as to exit from the precision output element in a configuration that exhibits the predetermined pitch with a minimal pointing error. 2. The 2D array component as defined in claim 1 wherein the precision output element comprises a multilayer structure, having at least two layers formed of a same material. 3. The 2D array component as defined in claim 2 wherein the multilayer structure precision output element comprises a top layer including a plurality of vias arranged in the 2D array configuration exhibiting the predetermined pitch and having a defined diameter on the order of a stripped optical fiber; and a bottom layer including a plurality of vias arranged in the 2D array configuration aligned with the predetermined pitch of the top layer plurality of vias. 4. The 2D array component as defined in claim 3 wherein the top layer and the bottom layer comprise silicon layers. 5. The 2D array component as defined in claim 4 wherein the top layer vias and the bottom layer vias comprise etched vias formed through the silicon. 6. The 2D array component as defined in claim 3 wherein each via of the plurality of vias includes a larger lead-in opening to facilitate the insertion of optical fibers. 7. The 2D array component as defined in claim 3 wherein the multilayer structure precision output element further comprises a spacer disposed between the top and bottom layers, the spacer including a plurality of relief holes disposed in a 2D array pattern that aligns with the pluralities of vias formed in the top and bottom layers. 8. The 2D array component as defined in claim 7 wherein the top layer and the bottom layer comprise silicon layers. 9. The 2D array component as defined in claim 8 wherein the spacer comprises silicon. 10. The 2D array component as defined in claim 7 wherein the spacer is formed to have a thickness t selected to minimize pointing error in the 2D array component. 11. The 2D array component as defined in claim 3 wherein the diameter of the vias formed in the bottom layer is greater than the diameter of the vias formed in the top layer. 12. The 2D array component as defined in claim 1 wherein the mounting flange includes a central sleeve for engaging the non-precision fiber guide block and the precision output element, the central sleeve include a first shoulder rim for supporting the non-precision fiber guide block and a second shoulder rim for supporting the precision output element with a predefined gap spacing g between the first and second shoulder rims. 13. The 2D array component as defined in claim 1 wherein the non-precision fiber guide block is formed of a plastic material. 14. The 2D array component as defined in claim 13 wherein the non-precision fiber guide block comprises a molded plastic material component. 15. A two-dimensional (2D) array component for supporting a plurality of individual optical fibers in a 2D configuration exhibiting a predetermined pitch, the array component comprising: a precision output element including a plurality of apertures arranged in a 2D array configuration, the plurality of apertures disposed to exhibit the predetermined pitch, each aperture having a small diameter (D a ) on the order of a stripped optical fiber; and a mounting flange for supporting the precision output element, the mounting flange including a plurality of large diameter (D t ) through-holes disposed at the predetermined pitch so as to align with the plurality of small diameter apertures of the precision output element, where D a <D t , such that a 1×N array of pre-aligned optical fibers may be inserted through a rear opening of the mounting flange and exit from the precision output element in a configuration that exhibits the predetermined pitch with a minimal pointing error, wherein the mounting flange further comprises a central recessed portion formed in an upper mounting surface, the central recessed portion sized to support the output element in a manner such that the mounting flange through-holes align with the apertures of the output element. 16. A method of assembling a two-dimensional (2D) optical fiber array component to exhibit a predetermined pitch, with a predetermined minimum pointing error, including: providing a fiber guide block that includes a plurality of through-holes disposed in the defined 2D pattern, the plurality of through-holes positioned to exhibit the predetermined pitch and each through-hole having a diameter D t on the order of a coated optical fiber; providing a precision output element that includes a plurality of apertures disposed in the defined 2D pattern, the plurality of apertures positioned to exhibit the predetermined pitch, with each aperture having a diameter D a on the order of a stripped optical fiber, where D a <D t ; providing a mounting flange with a sleeve opening; inserting the fiber guide block into the mounting flange sleeve opening; inserting the precision output element in the mounting flange sleeve to overlie the fiber guide block in a manner such that the plurality of apertures aligns with the plurality of through-holes; loading a plurality of N stripped optical fibers onto a precision tool that is capable of holding the plurality of N stripped optical fibers in a 1×N array with the predetermined pitch, creating a pre-aligned 1×N array of optical fibers; inserting the precision tool through a backside opening in the mounting flange and directing the 1×N array of pre-aligned optical fibers through a 1×N array of through-holes in the fiber guide block and then through an aligned 1×N array of apertures in the precision output element until stripped end terminations of the plurality of N stripped optical fibers exit from the output element; attaching the inserted 1×N array of fibers to a backside of the fiber guide block to fix and maintain the desired pitch and pointing error of the loaded 1×N array; repeating the steps of loading, inserting, and attaching until an entire 2D array of optical fibers is in place; and bonding exposed stripped end terminations of the 2D array of optical fibers to an outer surface of the output element. 17. The method as defined in claim 16 , wherein the method further comprises the step of polishing the outer surface of the output element. 18. The method as defined in claim 16 , wherein the step of providing a precision output element comprises providing a multilayer silicon-based output element.