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    Journals >Frontiers of Optoelectronics >Volume 3 >Issue 3 >Page 328 > Article
    • Frontiers of Optoelectronics
    • Vol. 3, Issue 3, 328 (2010)
    Aged rare earth doped silicates as optoelectronic material
    Vandana RANGA1、*, H. N. ACHARYA2, R. K. KHANNA3, and Anirudh KUMAR4
    Author Affiliations
  • 1Department of Physics, Government College, Ajmer 334001, India
  • 2Emeritus Scientist, Department of Physics, Indian Institute of Technology, Kharagpur 721302, India
  • 3Principal, BMIT, Jaipur 302022, India
  • 4Chino Scientific Instruments Manufacturing, Ajmer 305004, India
    • show less
    DOI: 10.1007/s12200-010-0096-7 Cite this Article
    Vandana RANGA, H. N. ACHARYA, R. K. KHANNA, Anirudh KUMAR. Aged rare earth doped silicates as optoelectronic material[J]. Frontiers of Optoelectronics, 2010, 3(3): 328 Copy Citation Text show less
    References

    [1] Brawer S A, White W B. Raman spectroscopic investigation of the structure of silicate glasses I: the binary silicate glasses. Journal of Chemical Physics, 1975, 63(6): 2421-2432

    [2] Walrafen G E, Stolen R H. Water and its relation to broken bond defects in fused silica. Journal of Chemical Physics, 1976, 64(6): 2623-2631

    [3] Walrafen G E. Raman spectral studies of mineral structure. Journal of Chemical Physics, 1964, 40(11): 3249-3256

    [4] Hollander A, Williams J W. The molecular scattering of light from amorphous and crystalline solids. Physical Review, 1931, 38(9): 1739-1744

    [5] Galeener F. Planar rings in vitreous silica. Journal of Non-Crystalline Solids, 1982, 49(1-3): 53-62

    [6] Mysen B O, Virgo D, Harrison W J, Scarfe C M. Solubility mechanisms of H2O in silicate melts at high pressures and temperatures: a Raman spectroscopic study. American Mineralogist, 1980, 65(9-10): 900-914

    [7] Mysen B O, Finger L W, Virgo D, Seifert F A. Curve fitting of Raman spectra in silicate glasses. American Mineralogist, 1982, 67(7-8): 686-695

    [8] Davis KM, Tomozawa M. An infrared spectroscopic study of waterrelated species in silica glasses. Journal of Non-Crystalline Solids, 1996, 201(3): 177-198

    [9] McMillan P F. Structural studies of silicate glasses and meltsapplications and limitations of Raman spectroscopy. American Mineralogist, 1984, 69(7-8): 622-644

    [10] McMillan P F, Poe B T, Stanton T R, Remmele R L. A Raman spectroscopic study of H/D isotopically substituted hydrous aluminsilicate glasses. Physics and Chemistry of Minerals, 1993, 19(7): 454-459

    [11] McMillan P F, Remmele R L. Hydroxyl sites in SiO2 glass: a note on infrared and Raman spectra. American Mineralogist, 1986, 71(5-6): 772-778

    [12] McMillan P F, Holloway J R. Water solubility in aluminosilicate melts. Contributions to Mineralogy and Petrology, 1987, 97(3): 320-332

    [13] Brinker C J, Scherer G W. Sol-Gel Science, the Physics and Chemistry of Sol-Gel Processing. Boston: Academic Press, 1990, 572-588

    [14] Phillips J C. Microscopic origin of anomalously narrow Raman lines in network glasses. Journal of Non-Crystalline Solids, 1984, 63(3): 347-355

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    Vandana RANGA, H. N. ACHARYA, R. K. KHANNA, Anirudh KUMAR. Aged rare earth doped silicates as optoelectronic material[J]. Frontiers of Optoelectronics, 2010, 3(3): 328
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