Random Distributed Feedback Fiber Laser
Sergei K. TuritsynSergey A. BabinA. E. El-TaherPaul HarperDmitry V. ChurkinS. I. KablukovJuan Diego Ania‐CastañónVassilis KaralekasEvgenii Podivilov
Abstract
Researchers conducted investigations to demonstrate the advantages of random distributed feedback fiber laser. Random lasers had advantages, such as simple technology that did not require a precise microcavity and low production cost. The properties of their output radiation were special in comparison to those of conventional lasers and they were characterized by complex features in the spatial, spectral, and time domains. The researchers demonstrated a new type of one-dimensional laser with random distributed feedback based on Rayleigh scattering (RS) that was presented in any transparent glass medium due to natural inhomogeneities of refractive index. The cylindrical fiber waveguide geometry provided transverse confinement, while the cavity was open in the longitudinal direction and did not include any regular point-action reflectors. © 2010 Optical Society of America
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