Single mode optical fiber with chlorine doped core and low bend loss

What is claimed is: 1. An optical fiber comprising: a. a chlorine doped silica core comprising a core alpha α≥10, a core radius r 1 and maximum refractive index delta Δ 1max % and Cl concentration≥0.9 wt %; b. a cladding surrounding the core, the cladding comprising: a. an inner cladding region immediately surrounding the core and comprising first and second cladding regions with respective outer radii r 2a and r 2 where r 2a <r 2 , the second cladding region comprising a refractive index delta Δ 2 with a minimum refractive index delta Δ 2min at radius r 2a and maximum refractive index delta Δ 2max at radius r 2 such that Δ 2min <Δ 2max <Δ 1max , and comprising an index slope TS=(Δ 2max −Δ 2min )/(r 2 −r 1 )>0; b. an outer cladding region surrounding the first inner cladding region and comprising an outer radius r max and refractive index delta Δ 5 , such that Δ 2min <Δ 5 <Δ 2max c. wherein the optical fiber comprises a mode field diameter MFD at 1310 nm of larger than 9 microns, a cable cutoff wavelength of ≤1260 nm, zero dispersion wavelength λ 0 , where 1300 nm≤λ 0 ≤1324 nm and bend loss at 1550 nm for a 20 mm mandrel of less than 0.5 dB/turn; and d. said optical fiber having a core radius r 1 such that 3.5 microns≤r 1 ≤5.5 microns and 0.1%≤Δ 1max ≤0.4%; and wherein the inner cladding region comprises an outer radius r 2 such that 5 microns≤r 2 ≤20 microns and −0.35%≤Δ 2min <0%. 2. The optical fiber of claim 1 , where the first cladding region comprises fluorine doped silica. 3. The optical fiber of claim 2 , wherein the first cladding region consists essentially of fluorine doped silica and chlorine doped silica. 4. The optical fiber of claim 1 , wherein the cladding further comprises a third cladding region immediately surrounding the second cladding region and comprising a refractive index delta Δ 3 and a maximum refractive index delta Δ 3max such that Δ 5 <Δ 3max . 5. The optical fiber of claim 4 , the cladding further comprises a fourth cladding region immediately surrounding the third cladding region and comprising a refractive index delta Δ 4 and a minimum refractive index delta Δ 4 such that Δ 4 <Δ 5 . 6. The optical fiber of claim 4 , wherein the third cladding region comprises fluorine doped silica. 7. The optical fiber of claim 6 , wherein the third cladding region consists essentially of fluorine doped silica and chlorine doped silica. 8. The optical fiber of claim 1 , wherein the core comprises a chlorine concentration of greater than 1.3 wt %. 9. The optical fiber of claim 8 , wherein the core comprises a chlorine concentration of greater than 2 wt %. 10. The optical fiber of claim 9 , wherein the core comprises a chlorine concentration of greater than 3 wt %. 11. The optical fiber of claim 1 , wherein the outer cladding region is surrounded by an undoped silica outer layer. 12. The optical fiber of claim 1 , wherein 0.1%≤Δ 1max ≤0.5%. 13. The optical fiber of claim 1 , wherein −0.35%≤Δ 2min ≤0.05%. 14. The optical fiber of claim 5 , wherein −0.3%≤Δ 4 ≤0%. 15. The optical fiber of claim 1 , wherein the attenuation at 1550 nm is ≤0.17 dB/km. 16. The optical fiber of claim 1 , also having a bend loss at 1550 nm for a 30 mm mandrel of ≤0.005 dB/turn. 17. The optical fiber of claim 2 , wherein the inner cladding region comprises a moat volume between 1 Δ %-micron 2 and 12 Δ %-micron 2 . 18. The optical fiber of claim 1 , wherein the bend loss at 1550 nm for a 20 mm mandrel is less than 0.3 dB/turn. 19. The optical fiber of claim 1 , wherein MFD at 1310 nm is between 9 microns and 9.5 microns. 20. The optical fiber according to claim 1 , wherein: 0.005% Δ/micron< dΔ 2 /dr< 0.2% Δ/micron.