Multimode optical fiber with reduced cladding thickness

What is claimed is: 1. An optical fiber comprising: a multimode glass fiber, the multimode glass fiber including a core region with a radius r 1 in the range from 17.5 μm to 32.5 μm and an outer cladding region with a relative refractive index Δ 4 and a radius r 4 less than or equal to 50.0 μm, the outer cladding region surrounding and directly adjacent to a depressed-index cladding region, the depressed-index cladding region having a radius r 3 and a relative refractive index Δ 3 <Δ 4 ; a primary coating with a radius r 5 surrounding and directly adjacent to the outer cladding region, the primary coating having a thickness r 5 -r 4 less than or equal to 30.0 μm and an in situ modulus less than 0.30 MPa; and a secondary coating with a radius r 6 less than or equal to 100.0 μm surrounding and directly adjacent to the primary coating; the secondary coating having a thickness r 5 -r 6 less than 30.0 μm and a normalized puncture load greater than 3.6×10 −3 g/μm 2 ; wherein the optical fiber has an overfilled launch (OFL) bandwidth greater than 500 MHz-km at a wavelength 850 nm or 1300 nm. 2. The optical fiber of claim 1 , wherein the radius r 1 is in the range from 17.5 μm to 27.5 μm. 3. The optical fiber of claim 1 , wherein the core region has a relative refractive index Δ 1 described by an α-profile with α in the range from 1.90 to 2.30. 4. The optical fiber of claim 3 , wherein the relative refractive index Δ 1 has a maximum Δ 1max in the range from 0.50% to 1.40%. 5. The optical fiber of claim 1 , wherein the radius r 4 is less than or equal to 45.0 μm. 6. The optical fiber of claim 1 , wherein the cladding region comprises an inner cladding region surrounding and directly adjacent to the core region with a radius r 2 and a relative refractive index Δ 2 in the range from −0.20% to 0.20%, the depressed-index cladding region surrounding and directly adjacent to the inner cladding region and having a minimum relative refractive index Δ 3min in the range from −0.10% to −0.80%, the relative refractive index Δ 4 in the range from −0.20% to 0.20%. 7. The optical fiber of claim 6 , wherein the thickness r 2 -r 1 of the inner cladding region is in the range from 0.3 μm to 6.0 μm. 8. The optical fiber of claim 7 , wherein the thickness r 3 -r 2 of the depressed-index cladding region is in the range from 1.0 μm to 8.0 μm. 9. The optical fiber of claim 1 , wherein the radius r 5 is less than or equal to 75.0 μm. 10. The optical fiber of claim 1 , wherein the radius r 5 is less than or equal to 65.0 μm. 11. The optical fiber of claim 1 , wherein the thickness r 5 -r 4 is less than or equal to 25.0 μm. 12. The optical fiber of claim 1 , wherein the primary coating is a cured product of a primary coating composition comprising a polyether urethane diacrylate compound having the molecular formula having the formula and a di-adduct compound having the formula wherein R 1 , R 2 , and R 3 comprise alkylene groups. 13. The optical fiber of claim 1 , wherein the radius r 6 is less than or equal to 85.0 μm. 14. The optical fiber of claim 1 , wherein the secondary coating has a normalized puncture load greater than 4.0×10 −3 g/μm 2 . 15. The optical fiber of claim 1 , wherein the secondary coating has a load transfer parameter P 1 /P less than 0.0178. 16. The optical fiber of claim 1 , wherein the secondary coating is a cured product of a secondary coating composition comprising a triacrylate monomer in an amount in the range from 2.0 wt % to 25 wt %, the triacrylate monomer comprising an alkoxylated trimethylolpropane triacrylate monomer having a degree of alkoxylation in the range from 2 to 16 or a tris[(acryloyloxy)alkyl] isocyanurate monomer. 17. The optical fiber of claim 1 , wherein the optical fiber has a minimum effective modal bandwidth (minEMB) greater than 2000 MHz-km at one or more wavelengths selected from the group consisting of 850 nm, 953 nm, 980 nm, 1064 nm and 1300 nm. 18. The optical fiber of claim 1 , wherein the optical fiber has a macrobend loss at 850 nm, when wrapped around a mandrel having a diameter of 15 mm, less than 0.12 dB/turn. 19. The optical fiber of claim 1 , wherein the optical fiber has a macrobend loss at 1300 nm, when wrapped around a mandrel having a diameter of 15 mm, less than 0.25 dB/turn. 20. The optical fiber of claim 1 , wherein the optical fiber has an average attenuation, as measured by OTDR, at 850 nm less than 10.0 dB/km. 21. The optical fiber of claim 1 , wherein the optical fiber has an average attenuation, as measured by OTDR, at 1300 nm less than 8.0 dB/km.