Methods and apparatus for wide angle chandelier illuminator

The invention claimed is: 1. A chandelier instrument for affixation during an eye surgery, the instrument including an optical end of enhanced light distribution character and comprising: a base with a substantially constant diameter of between about 300 micrometers and about 600 micrometers; a tapered end cone extending from the base, the tapered end cone having a length of between about 700 micrometers and about 850 micrometers with a taper angle greater than about 8.5°; an outer grind surface of the tapered end cone formed by circular grinding, the surface of substantially uniform light scattering character; wherein the tapered end cone further comprises a blunt distal end formed by at least one of grinding and polishing; and wherein the tapered end cone is configured to provide a beam spread angle in excess of about 100° with a smooth beam distribution absent any hot center or sharp edge beam pattern. 2. The instrument of claim 1 , wherein the end cone is substantially scratch-free and tailored to distribute a wide beam spread angle in excess of about 100°. 3. The instrument of claim 1 wherein the base diameter is between about 350 micrometers and about 450 micrometers and the taper angle is between about 9° and 13°. 4. The instrument of claim 1 wherein the blunt end includes an outer grind surface. 5. The chandelier instrument of claim 1 , wherein the chandelier instrument further comprises a sleeve surrounding the base. 6. The chandelier instrument of claim 5 , wherein the sleeve is 27 gauge. 7. A method, comprising: presenting a fiber optic thread to a grind system to form an end cone with a taper angle in excess of about 8.5° over a taper length of between about 700 micrometers and about 850 micrometers; incorporating the end cone into a chandelier light instrument to facilitate a surgical procedure with a wide beam spread angle from the end cone in excess of about 100°; wherein the presenting comprises employing a grind pad for grinding an outer grind surface defining the end cone to facilitate enhanced light distribution for the surgical procedure; wherein the presenting comprises a circular grinding that occurs in an irregular manner with the center of a rotating plate shifting location as a circular grind pad is rotated; wherein the end cone is formed with a pointed terminus; and wherein the grinding further comprises grinding the pointed terminus to a blunt distal end on the end cone. 8. The method of claim 7 wherein the grinding comprises polishing to form the outer grind surface. 9. The method of claim 7 wherein the grind pad is a film that incorporates one of aluminum, silicate and diamond particles ranging in size from between about 1 micrometer and about 40 micrometers. 10. The method of claim 7 , further comprising providing a sleeve around a base of the chandelier instrument. 11. The method of claim 10 , wherein the sleeve is 27 gauge. 12. The method of claim 7 , wherein the presenting further comprises a periodic rotation of the fiber optic.