1. Kim, J.-K., Investigation of High-Nonlinearity Glass Fibers for Potential Applications in Ultrafast Nonlinear Fiber Devices, PhD Dissertation, Blacksburg (Virginia), United States: 2005, p. 323.
2. Rivero, C., Richardson, K., Stegeman, R., Cardinal, T., Fargin, E., Couzi, M., and Rodriguez, V., Quantifying Raman Gain Coefficient in Tellurite Glasses, J. Non-Cryst. Solids, 2004, vols. 345–346, pp. 396–401.
3. Ferreira, B., Fargin, E., Guillaume, B., le Flem, G., Rodriguez, V., Couzi, M., Buffeteau, T., Canioni, L., Larger, L., Martinelli, G., Quiquempois, Y., Zeghlache, H., and Carpentier, L., Second Harmonic Generation in Poled Tellurite Glass, J. Non-Cryst. Solids, 2003, vol. 332, pp. 201–218.
4. Zhao, S., Wang, X., Fang, D., Xu, S., and Hu, L., Spectroscopic Properties and Thermal Stability of Er3+ Doped Tungsten-Tellurite Glass for Waveguide Amplifier Application, J. Alloys Compd., 2006, vol. 427, pp. 243–246.
5. Yakhkind, A.K., Physicochemical Properties and Structure of Tellurite Glasses, in Struktura i fizikokhimicheskie svoistva neorganicheskikh stekol (Structure and Physicochemical Properties of Inorganic Glasses), Vlasov, A.G. and Florinskaya, V.A., Eds., Leningrad: Khimiya, 1974, Part 8, pp. 286–350 [in Russian].