Glass large-core optical fibers

What is claimed is: 1. A fiber optic amplifier system comprising: an optical pulse source providing optical pulses having a nearly diffraction limited input spatial profile; an optical pump source; and a fiber comprising, a first cladding region comprising a first cladding material having a first index of refraction, n1; cladding features disposed in said first cladding region, said cladding features comprising a second cladding material having a second index of refraction, n2, wherein n2 is less than n1, and wherein the cladding features have a dimension d and a center-to-center spacing Λ, and a ratio d/Λ is in a range from 0.3 to 0.9; a core region at least partially surrounded by said cladding features, said first cladding region and said cladding features configured such that said core region propagates at least one lower order mode having a wavelength, while limiting propagation of at least one higher order mode having the wavelength by providing said at least one higher order mode with a higher loss than the at least one lower order mode at the wavelength, wherein at least a portion of said core region is rare-earth doped, and a pump cladding configured to receive pump energy from said optical pump source, said fiber configured to receive said pulses and amplify said pulses such that the fiber optic amplifier system is configured to produce output pulses having nearly diffraction limited output spatial profiles and at least one output pulse having energy in a range from 10 μJ to 10 mJ. 2. The fiber optic amplifier system of claim 1 , wherein said fiber is configured as an all-glass, leakage channel fiber. 3. The fiber optic amplifier system of claim 1 , wherein said first cladding material comprises a first glass that comprises fused silica, and wherein said second cladding material comprises a second glass that comprises fluorine-doped silica glass or boron-doped silica glass. 4. The fiber optic amplifier system of claim 1 , wherein said core region has a diameter in a range from30 μm to 200 μm. 5. The fiber optic amplifier system of claim 1 , wherein said first cladding region has a diameter in a range from 125 μm to 300 μm. 6. The fiber optic amplifier system of claim 1 , wherein a relative refractive index difference characterized by (n1−n 2)/n1 is less than 4.5×10 −3 . 7. The fiber optic amplifier system of claim 1 , wherein a repetition rate of said output pulses exceeds 1 kHz. 8. The fiber optic amplifier system of claim 7 , wherein said repetition rate of said output pulses is below 1 MHz. 9. The fiber optic amplifier system of claim 1 , wherein a pulse width of the at least one output pulse is below 1 ns. 10. The fiber optic amplifier system of claim 9 , wherein said pulse width is above 1 ps. 11. The fiber optic amplifier system of claim 1 , further comprising a pump guide to transmit a portion of said received pump energy to said core region. 12. The fiber optic amplifier system of claim 1 , wherein said pump cladding is disposed beyond said first cladding region. 13. The fiber optic amplifier system of claim 1 , wherein said pump cladding comprises a low index glass. 14. The fiber optic amplifier system of claim 13 , wherein said low index glass comprises fluorine. 15. The fiber optic amplifier system of claim 1 , wherein said pump cladding comprises a layer of air holes. 16. The fiber optic amplifier system of claim 1 , wherein at least a portion of said pump cladding comprises a non-circular portion. 17. The fiber optic amplifier system of claim 16 , wherein said non-circular portion is configured to increase mode mixing of a pump beam incident on said pump cladding. 18. A laser-based material processing system comprising: the fiber optic amplifier system of claim 1 ; and an optical system comprising a beam delivery optic to produce a spot on or within a material, said spot having a spot diameter in a range from 1 μm to 250 μm. 19. A laser-based radar system comprising the fiber optic amplifier system of claim 1 . 20. The fiber optic amplifier system of claim 1 , further comprising: a single mode or few-mode input fiber coupled to said fiber to deliver pulses from said optical pulse source to said fiber, wherein a core of said input fiber is expanded and power coupled from the core of said input fiber to said fiber is substantially greater than obtainable with butt-coupling. 21. The fiber optic amplifier system of claim 1 , wherein a ratio of the loss of said at least one higher order mode to the loss of said at least one lower order mode is greater than 10 and less than 1000. 22. The fiber optic amplifier system of claim 1 , wherein said wavelength is in a range from 458 nm to 1550 nm. 23. The fiber optic amplifier system of claim 1 , where said ratio d/Λ is in a range from 0.5 to 0.8. 24. The fiber optic amplifier system of claim 1 , where said ratio d/Λ is in a range from 0.65 to 0.9. 25. The fiber optic amplifier system of claim 1 , where said ratio d/Λ is in a range from 0.75 to 0.85.