Patent ID: 7171091

Claim:
A method for designing a tuned cladding fiber for laser or amplification operation at a desired fundamental wavelength mode, said tuned cladding fiber comprised of an outer cladding of uniform index of refraction of n 3 and an inner cladding with a large, multimode central core doped with an active lasing ionic species designed for operation at a desired fundamental wavelength mode, said inner cladding having material comprised of glass of index n 1 and a plurality of air holes yielding an average index of refraction n 2 , n 2 being less than n 1 and less than n 3 , said multimode central core being the transmission path for guiding said desired fundamental wavelength mode and undesired, higher order guided modes, and said inner cladding further comprised of tuned elements designed to provide a path for said undesired, higher order guided modes to be coupled out to said uniform index cladding layer, the method comprised of: a. choosing a core size and geometry for the central core; b. specifying an average index of refraction for said tuned cladding fiber material that will achieve a desired fundamental mode loss for the particular operating parameters of a selected laser or amplifier; c. calculating the effective index of refraction for all the guided modes in said multimode central core; d. specifying for each undesired, higher order guided mode, a tuned element geometry whose fundamental mode effective index matches the effective index of that guided mode, beginning with a tuned element size approximately equal to the size of the local maxima in the intensity in that mode and calculating the effective index, such that if the calculated effective index is higher than the effective index of the specified core mode, making said tuned element slightly smaller, and if it is lower than the effective index of the specified core mode, making said tuned element slightly larger, refining said tuned element geometry in this manner until the effective indices match to within the manufacturing tolerances for said fiber; e. checking to see if any of the undesired, higher order modes of said tuned element match any of the higher order modes of said multimode central core, whereby if such a match occurs, these higher order modes do not need a separate tuned element with matching fundamental mode; f. placing all of the required tuned elements within said inner cladding in multiple instances leading from the neighboring region of said central core to said uniform cladding area; g. calculating the modes of the overall structure and slightly varying the size of each tuned element whereby there are no undesired, higher order modes localized in said central core and the fundamental core mode is the only localized mode or so the loss in the higher order modes is maximized relative to that of the fundamental mode, whereby the design may be incorporated into a fiber pre-form and the fiber fabricated through the normal draw process and thereafter incorporated into a laser or amplifier in the standard fashion.