• DocumentCode
    1759371
  • Title

    Modeling of Whispering Gallery Modes for Rare Earth Spectroscopic Characterization

  • Author

    Palma, G. ; Falconi, C. ; Nazabal, V. ; Yano, T. ; Kishi, T. ; Kumagai, T. ; Ferrari, M. ; Prudenzano, F.

  • Author_Institution
    Dept. of Electr. & Inf. Eng., Politec. di Bari, Bari, Italy
  • Volume
    27
  • Issue
    17
  • fYear
    2015
  • fDate
    Sept.1, 1 2015
  • Firstpage
    1861
  • Lastpage
    1863
  • Abstract
    A refined model of a mid-IR amplifier, constituted by a tapered chalcogenide fiber coupled to an erbium-doped chalcogenide microsphere, is integrated with a global solution search procedure based on particle swarm optimization approach. It is implemented in a computer code in order to obtain an inversion algorithm useful to evaluate the spectroscopic parameters of rare-earth-doped glass microspheres. The rare earth parameters can be recovered by means of the optical gain measurement. The error in evaluation of the erbium lifetime τ41 is <;3.5%. It is <;0.5% for the other lifetimes and ion-ion interaction parameters. These excellent results are obtained since whispering gallery mode electromagnetic field interacts with rare earth for long effective distances.
  • Keywords
    chalcogenide glasses; erbium; gallium compounds; germanium compounds; infrared spectra; integrated optics; micro-optics; optical fibre couplers; optical fibre testing; optical glass; particle swarm optimisation; rare earth compounds; whispering gallery modes; Ga5Ge20Sb10S65:Er3+; computer code; electromagnetic field; global solution search procedure; integrated optics; inversion algorithm; ion-ion interaction parameters; midinfrared amplifier; optical gain measurement; particle swarm optimization approach; rare earth spectroscopic characterization; rare-earth-doped glass microspheres; tapered chalcogenide fiber-erbium-doped chalcogenide microsphere coupling; whispering gallery mode modeling; Glass; Optical amplifiers; Optical fiber amplifiers; Optical fiber sensors; Optical pumping; Modeling; Optical fibers; Optical resonators; Optical spectroscopy; Optical waveguide theory; optical fibers; optical resonators; optical spectroscopy; optical waveguide theory;
  • fLanguage
    English
  • Journal_Title
    Photonics Technology Letters, IEEE
  • Publisher
    ieee
  • ISSN
    1041-1135
  • Type

    jour

  • DOI
    10.1109/LPT.2015.2443915
  • Filename
    7120938