Anti-resonant hollow core optical fiber and methods of making

What is claimed is: 1. An anti-resonant hollow core optical fiber preform comprising: an outer cladding having a length, a central longitudinal axis, and a hollow interior; a plurality of structural tubes disposed within the hollow interior of the outer cladding, the plurality of structural tubes each having a length that extends the length of the outer cladding, adjacent structural tubes being separated by a gap such that a minimum distance between adjacent structural tubes is from about 1 mm to about 5 mm; and a central support tube disposed within the hollow interior of the outer cladding such that the plurality of structural tubes are disposed radially outward of the central support tube, the central support tube having a length that extends along the central longitudinal axis of the outer cladding, and the length of the central support tube being about 10 cm or less and being less than the length of the outer cladding and each of the plurality of structural tubes, wherein the plurality of structural tubes are each bonded to the central support tube. 2. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the length of the central support tube is about 3 cm or less. 3. The anti-resonant hollow core optical fiber preform of claim 2 , wherein the length of the central support tube is about 2 cm or less. 4. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the plurality of structural tubes are each welded to the central support tube. 5. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the plurality of structural tubes are bonded to the central support tube with a layer of silica soot. 6. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the central support tube is disposed at a first end of the outer cladding and further comprising a second central support tube disposed at a second end of the outer cladding, the plurality of structural tubes being disposed radially outward of the second central support tube, and the second central support tube having a length that is less than the length of the outer cladding. 7. The anti-resonant hollow core optical fiber preform of claim 6 , wherein the central support tube does not contact the second central support tube. 8. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the plurality of structural tubes each comprise silica glass. 9. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the plurality of structural tubes are each a hollow tube. 10. The anti-resonant hollow core optical fiber preform of claim 9 , further comprising a second structural tube disposed within each of the plurality of structural tubes. 11. The anti-resonant hollow core optical fiber preform of claim 1 , wherein the central support tube is a hollow tube. 12. The anti-resonant hollow core optical fiber preform of claim 1 , wherein an outer diameter of the central support tube is greater than an outer diameter of each of the plurality of structural tubes. 13. The anti-resonant hollow core optical fiber preform of claim 1 , wherein an outer diameter of the central support tube is smaller than an outer diameter of each of the plurality of structural tubes. 14. A method of making an anti-resonant hollow core optical fiber preform, the method comprising: bonding a central support tube to a plurality of structural tubes such that the plurality of structural tubes are disposed radially outward of the central support tube; and providing a hollow outer cladding around the central support tube and the plurality of structural tubes, wherein: adjacent structural tubes are separated by a gap such that a minimum distance between adjacent structural tubes is from about 1 mm to about 5 mm, and the plurality of structural tubes each extend for a length of the outer cladding and a length of the central support tube is about 10 cm or less and is less than the length of the outer cladding and each of the plurality of structural tubes. 15. The method of claim 14 , further comprising bonding the central support tube to the plurality of structural tubes with a CO laser. 16. The method of claim 14 , further comprising bonding the central support tube to the plurality of structural tubes by heating a film on the central support tube. 17. The method of claim 14 , further comprising bonding the central support tube to the plurality of structural tubes by sintering silica frit on the central support tube. 18. The anti-resonant hollow core optical fiber preform of claim 1 , wherein a thickness of the central support tube is greater than a thickness of each of the plurality of structural tubes.