Growth kinetics of AlOHC defects in γ-irradiated silica glasses
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Agustín Martín | Angel Ibarra | Á. Ibarra | F. López | D. Bravo | J. C. Lagomacini | P. Martín | Agustín Martín | Fernando López | P. Martín | Juan C. Lagomacini | David Bravo
[1] S. Girard,et al. Radiation Effects on Silica-Based Optical Fibers: Recent Advances and Future Challenges , 2013, IEEE Transactions on Nuclear Science.
[2] Linards Skuja,et al. Oxygen-excess-related point defects in glassy/amorphous SiO2 and related materials , 2012 .
[3] S. Girard,et al. Influence of Drawing Conditions on the Properties and Radiation Sensitivities of Pure-Silica-Core Optical Fibers , 2012, Journal of Lightwave Technology.
[4] Á. Ibarra,et al. EPR study of gamma and neutron irradiation effects on KU1, KS-4V and Infrasil 301 silica glasses , 2011 .
[5] J. Xue,et al. The transformation balance between two types of structural defects in silica glass in ion-irradiation processes , 2011 .
[6] M. Cannas,et al. Evolution of photo-induced defects in Ge-doped fiber/preform: influence of the drawing. , 2011, Optics express.
[7] Á. Ibarra,et al. EPR study of new defects in neutron irradiated KS-4V and KU1 fused silica , 2010 .
[8] D. Griscom,et al. Photosensitivity of SiO2-Al and SiO2-Na glasses under ArF (193 nm) laser , 2009 .
[9] Á. Ibarra,et al. Neutron irradiation effects on optical absorption of KU1 and KS-4V quartz glasses and Infrasil 301 , 2009 .
[10] Alfredo Pasquarello,et al. Proton diffusion mechanism in amorphous SiO2. , 2006, Physical review letters.
[11] M. Cannas,et al. Photochemical generation of E′ centres from Si–H in amorphous SiO2 under pulsed ultraviolet laser radiation , 2006, cond-mat/0703061.
[12] S. Agnello,et al. Thermal stability of gamma-irradiation-induced oxygen-deficient centers in silica , 2006 .
[13] F. Carbone,et al. Optical properties of bcc transition metals in the range 0-40 eV , 2006 .
[14] F. Gelardi,et al. Characterization of E'δ and triplet point defects in oxygen-deficient amorphous silicon dioxide , 2005, cond-mat/0505503.
[15] E. R. Hodgson,et al. Performance of functional materials and components in a fusion reactor: the issue of radiation effects in ceramics and glass materials for diagnostics , 2004 .
[16] H. Moriyama,et al. Electron spin resonance measurement of irradiation defects in vitreous silica irradiated with neutrons and ion beams , 2004 .
[17] H. Hosono,et al. UV–VUV laser induced phenomena in SiO2 glass , 2004 .
[18] E. Hodgson,et al. The ITER project: the role of insulators , 2004 .
[19] V. A. Zhabrev,et al. Ion Diffusion in Oxide Glasses and Melts: I. Bibliography , 2003 .
[20] R. Doremus. Diffusion of Reactive Molecules in Solids and Melts , 2001 .
[21] David L. Griscom,et al. Fractal kinetics of radiation-induced point-defect formation and decay in amorphous insulators: Application to color centers in silica-based optical fibers , 2001 .
[22] R. Devine,et al. Electric-field-induced transport of protons in amorphous SiO 2 , 2001 .
[23] G. Pacchioni,et al. Theoretical description of hole localization in a quartz Al center: The importance of exact electron exchange , 2000 .
[24] D. Griscom,et al. Electron spin resonance studies of defect centers induced in a high-level nuclear waste glass simulant by gamma-irradiation and ion-implantation , 1999 .
[25] L. Skuja. Optically active oxygen-deficiency-related centers in amorphous silicon dioxide , 1998 .
[26] Zhang,et al. Fundamental role of creation and activation in radiation-induced defect production in high-purity amorphous SiO2. , 1996, Physical review letters.
[27] Hiroshi Hirashima,et al. Intrinsic- and extrinsic-defect formation in silica glasses by radiation☆ , 1994 .
[28] Mikkelsen,et al. X-ray creation and activation of electron spin resonance in vitreous silica. , 1993, Physical review. B, Condensed matter.
[29] D. Griscom. Electron spin resonance characterization of self-trapped holes in amorphous silicon dioxide , 1992 .
[30] David L. Griscom,et al. Optical Properties and Structure of Defects in Silica Glass , 1991 .
[31] Devine,et al. Correlated defect creation and dose-dependent radiation sensitivity in amorphous SiO2. , 1989, Physical review. B, Condensed matter.
[32] Joel J. Martin,et al. Radiation-induced mobility of lithium and sodium in alpha-quartz , 1983 .
[33] S. J. Rothman,et al. Diffusion of Alkali Ions in Vitreous Silica , 1982 .
[34] F. B. McLean. A Framework for Understanding Radiation-Induced Interface States in SiO2 MOS Structures , 1980, IEEE Transactions on Nuclear Science.
[35] D. Griscom. Electron spin resonance in glasses , 1980 .
[36] K. L. Brower. Electron paramagnetic resonance of Al E 1 ′ centers in vitreous silica , 1979 .
[37] E. Friebele,et al. Fundamental defect centers in glass : The peroxy radical in irradiated high-purity fused silica , 1979 .
[38] E. Friebele,et al. Oxygen-associated trapped-hole centers in high-purity fused silicas , 1979 .
[39] K. L. Brower. Structural and trapping characteristics of a new A1 defect in vitreous silica , 1978 .
[40] A. Räuber,et al. Motional effects in the trapped-hole center in smoky quartz , 1971 .
[41] J. Mackey,et al. EPR study of substitutional-aluminum-related hole centers in synthetic α-quartz☆ , 1970 .
[42] G. H. Frischat. Sodium Diffusion in SiO2 Glass , 1968 .
[43] J. Mackey. EPR Study of Impurity‐Related Color Centers in Germanium‐Doped Quartz , 1963 .
[44] R. A. Weeks,et al. Paramagnetic Resonance of Lattice Defects in Irradiated Quartz , 1956 .
[45] O. Anderson,et al. Calculation of Activation Energy of Ionic Conductivity in Silica Glasses by Classical Methods , 1954 .
[46] David L. Griscom,et al. THE NATURES OF POINT DEFECTS IN AMORPHOUS SILICON DIOXIDE , 2000 .
[47] L. Skuja,et al. OPTICAL PROPERTIES OF DEFECTS IN SILICA , 2000 .
[48] F. Gelardi,et al. GAMMA RAYS INDUCED CONVERSION OF NATIVE DEFECTS IN NATURAL SILICA , 2000 .
[49] F. L. Galeener,et al. Defects in glasses , 1986 .