Air-clad fibers: pump absorption assisted by chaotic wave dynamics?
Abstract
Wave chaos is a concept which has already proved its practical usefulness in design of double-clad fibers for cladding-pumped fiber lasers and fiber amplifiers. In general, classically chaotic geometries will favor strong pump absorption and we address the extent of chaotic wave dynamics in typical air-clad geometries. While air-clad structures supporting sup-wavelength convex air-glass interfaces (viewed from the high-index side) will promote chaotic dynamics we find guidance of regular whispering-gallery modes in air-clad structures resembling an overall cylindrical symmetry. Highly symmetric air-clad structures may thus suppress the pump-absorption efficiency eta below the ergodic scaling law eta proportional to Ac/Acl, where Ac and Acl are the areas of the rare-earth doped core and the cladding, respectively.
Keywords
Cite
@article{arxiv.0707.1189,
title = {Air-clad fibers: pump absorption assisted by chaotic wave dynamics?},
author = {Niels Asger Mortensen},
journal= {arXiv preprint arXiv:0707.1189},
year = {2007}
}
Comments
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