Patent ID: 8655121

Claim:
An optical fiber extending along a longitudinal fiber axis and comprising” at least one cladding centered along the fiber axis; and an elongated multimode (MM) core concentric with and surrounded by the one cladding, the MM core being configured with a double bottleneck-shaped cross section so as to provide for excitation and doctorless guidance of substantially only fundamental mode wherein the double bottleneck-shape cross section of the MM includes: input and output mode transformer regions spaced axially from one another and each having a frustoconically-shaped cross-sections so that the transformer regions each have a relatively small end and relatively large end; and a uniformly dimensioned central region bridging the large ends of the respective input and output transformer regions; a uniformly dimensioned input end region running into the small end of the input transformer region, the input end region being configured so that substantially only the fundamental mode is excited therein in response to a single mode (SM) input beam launched into the input end region; a uniformly dimensioned output end region extending from the output transformer and receiving the fundamental mode therefrom so as to output a radiation in substantially the fundamental mode; wherein the MM core is configured with a refractive index step index profile having a centrally located dip, the SM input beam and the fundamental mode in the input end region having respective substantially Gaussian intensity profiles which are shaped with respective mode field diameters (MFD) substantially matching one another; wherein the dip gradually enlarges along the input transformer region so as to transform the profile into a ring profile of the fundamental mode coupled into the central region of the core and narrows along the output transformer region towards the output end region of the core so as to transform the ring profile of the fundamental mode into the substantially Gaussian profile thereof.