Bifurcation From Simple Eigenvalues by Crandall, Rabinowitz
By Crandall, Rabinowitz
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Moriyama, K. Inada, S. Takahashiand, M. Kawachi. PbO doped high silica fiber fabricated by modified VAD. Proceedings of the Sixth European Conference on Optical Communications (IEE), 1980, pp 14–17. 50. Thompson, D. , P. L. Bocko, J. R. Gannon. New source compounds for fabrication of doped optical waveguide fibers. SPIE 506:170–173, 1984. 51. Abramov, A. , M. M. Bubnov, E. M. Dianov, A. E. Voronkov, A. N. Guryanov, G. G. Devjatykh, S. V. Ignatjev, Y. B. Zverev, N. S. Karpychev, S. M. Mazavin. New method of production of fibers doped by rare earths.
F. Hanawa, H. Suda, M. Horiguchi. Transmission loss characteristics of Nddoped silica single-mode fibers fabricated by the VAD method. Jpn. J. Appl. Phys. 28:L476– L478, 1989. 53. Dumbaugh, W. , P. C. Schultz. Method of producing glass by flame hydrolysis. S. patent 3,864,113, 1975. 54. , H. Kanamori, N. Yoshioka, G. Tanaka, M. Watanabe. Fluorine doping in the VAD sintering process. Proc. OFC’84, paper MGS, pp. 22–23, 1984. 55. Schultz, P. C. Optical absorption of the transition elements in vitreous silica.
Mears, M. E. Fermann, R. I. Laming. Fabrication and characterization of low-loss optical fibers containing rare earth ions. IEEE/OSA J. Lightwave Technol. LT-4(7), 1986. 14 Simpson 42. Simpson, J. , J. B. MacChesney. Alternate dopants for silicate waveguides. Proc. OFC’82, paper TUCC5, 1982. 43. , H. Yokota, M. Hoshikawa. Fabrication of Yb 2 O 3 –SiO 2 core fiber by a new process. Proc. ECOC, 1985. 44. , T. F. Morse, P. Charilaou, J. W. Cipolla. Aerosol delivery of non-volatile dopants in the MCVD system.