Spectral properties of erbium-doped lead halotellurite glasses for 1.5 μm broadband amplification
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Shibin Jiang | N. Peyghambarian | T. Luo | B. Hwang | Y. Miura | Yong Ding | Y. Himei | T. Ito
[1] A Mori,et al. Gain characteristics of tellurite-based erbium-doped fiber amplifiers for 1.5-microm broadband amplification. , 1998, Optics letters.
[2] B. G. Potter,et al. Increased Radiative Lifetime of Rare Earth-doped Zinc Oxyhalide Tellurite Glasses , 1997 .
[3] Yasutake Ohishi,et al. Broadband and gain-flattened amplifier composed of a 1.55 [micro sign]m-band and a 1.58 [micro sign]m-band Er3+-doped fibre amplifier in a parallel configuration , 1997 .
[4] A. Osaka,et al. X-ray photoelectron spectroscopy of alkali tellurite glasses , 1997 .
[5] R. W. Tkach,et al. Fast power transients in WDM optical networks with cascaded EDFAs , 1997 .
[6] R. S. Quimby,et al. General procedure for the analysis of Er(3+) cross sections. , 1991, Optics letters.
[7] 王 宇湖. Bonding State of Halide Inos and Electrical Conduction in Oxyhalide Glasses , 1989 .
[8] M. J. Suscavage,et al. Multiphonon relaxation and infrared‐to‐visible conversion of Er3+ and Yb3+ ions in barium‐thorium fluoride glass , 1987 .
[9] W. Vogel,et al. IR transmission and properties of glasses in the TeO2−RnOm, RnXm, Rn(SO4)m, Rn(PO3)mandB2O3] systems , 1985 .
[10] A. J. Bruce,et al. Preparation and Properties of Heavy‐Metal Fluoride Glasses Containing Ytterbium or Lutetium , 1982 .
[11] Renata Reisfeld,et al. Radiative and non-radiative transitions of rare-earth ions in glasses , 1975 .
[12] R Ulrich,et al. Measurement of thin film parameters with a prism coupler. , 1973, Applied optics.
[13] M. J. Weber,et al. Probabilities for Radiative and Nonradiative Decay of Er 3 + in La F 3 , 1967 .
[14] D. Mccumber,et al. Theory of Phonon-Terminated Optical Masers , 1964 .