Targeted illumination for surgical instrument

What is claimed is: 1. An illuminated vitrectomy probe comprising: a vitrectomy probe having a cutting port disposed at a distal end of a cannula; and an array of optical fibers extending along a portion of the cannula and terminating near the cutting port, the array of optical fibers comprising: a first optical fiber; and a plurality of optical fibers flanking the first optical fiber on opposite sides thereof, the first optical fiber having a diameter larger than the diameters of the flanking optical fibers, the array of optical fibers arranged along the cannula such that the flanking optical fibers have progressively decreasing diametrical sizes away from the first optical fiber, the array of optical fibers located adjacent to the cannula only on a side of the cannula on which the cutting port is located, and wherein the array of optical fibers are disposed in a semi-circular pattern around the cannula near the cutting port. 2. The illuminated vitrectomy probe of claim 1 wherein the array of optical fibers and cannula are configured to fit through a second cannula with a size not greater than 23 gauge. 3. The illuminated vitrectomy probe of claim 2 in which the array of optical fibers comprises seven optical fibers with diameters between 0.003 inches and 0.005 inches. 4. The illuminated vitrectomy probe of claim 1 wherein the array of optical fibers comprises optical fibers with diameters between 0.003 inches and 0.005 inches. 5. The illuminated vitrectomy probe of claim 1 further comprising: a potting substance that holds the optical fibers against the cannula of the vitrectomy probe. 6. The illuminated vitrectomy probe of claim 1 further comprising: a sleeve that holds the optical fibers against the cannula of the vitrectomy probe. 7. The illuminated vitrectomy probe of claim 6 wherein the array of optical fibers comprises optical fibers with diameters between 0.002 inches and 0.005 inches. 8. The illuminated vitrectomy probe of claim 1 further comprising: a housing having an opening through which the array of optical fibers passes, the housing attached to the cannula. 9. The illuminated vitrectomy probe of claim 1 further comprising: a coupling for coupling an end of the array of optical fibers to a light source. 10. An illuminated surgical instrument comprising: an instrument comprising: a peripheral surface; and a working area located near an end of the instrument, the working area having an orientation with respect to the end of the instrument; and an array of optical fibers extending along a portion of the peripheral surface and terminating near the end of the instrument, the array of optical fibers comprising: a first optical fiber; and a plurality of optical fibers flanking the first optical fiber on opposite sides thereof, the first optical fiber having a diameter larger than the diameters of the flanking optical fibers, the array of optical fibers arranged along the portion of the peripheral surface such that the flanking optical fibers have progressively decreasing diametrical sizes away from the first optical fiber, the array of optical fibers located adjacent to the instrument such that the array of optical fibers provides targeted illumination to the working area, the targeted illumination configured for the orientation of the working area. 11. The illuminated surgical instrument of claim 10 wherein the plurality of optical fibers and instrument are configured to fit through a cannula with a size not greater than 23 gauge. 12. The illuminated surgical instrument of claim 10 further comprising: a potting substance that holds the plurality of optical fibers against the instrument. 13. The illuminated surgical instrument of claim 10 further comprising: a sleeve that holds the plurality of optical fibers against the instrument.