Abstract

To study the formation of defects in quartz glasses of type KS-4V, KU-1, and Corning 7980 under the action of an electron beam (EB), the induced absorption spectra is decomposed into individual bands (IBs) with maxima at 163.5, 183.5, 213, 225, 244, and 260 nm. In all the glasses, the intensities of most of the IBs saturated at doses around 90 MGy as the EB fluence increased. The steady-state absorption at 260, 213, and 183 nm was a factor of 2–4 less in KS-4V than in KU-1. The intensity of the bands at 163 nm virtually coincided in these glasses and monotonically increased with increasing EB fluence. This indicates an impact mechanism for the throughput of the oxygen-deficient centers responsible for this band.

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  1. A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).
  2. A. R. Silin’ and A. N. Trukhin, Point Defects and Elementary Excitations in Crystalline and Glassy SiO 2, Zinatne, Riga, 1985.
  3. P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).
  4. P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].
  5. P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "Radiation stability of optical materials for the windows of excimer lasers of the UV and VUV ranges," Kvant. Elektron. (Moscow) 37, 706 (2007) [Quantum Electron. 37, 706 (2007)].
    [CrossRef]
  6. P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "The effect of the radiation of a KrF laser on e-beam-induced absorption in fluorite and quartz glasses," Kvant. Elektron. (Moscow) 37, 711 (2007) [Quantum Electron. 37, 711 (2007)].
    [CrossRef]
  7. A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).
  8. A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).
  9. A. R. Silin’, D. K. Millers, and I. A. Khinoverova, "The effect of radiation on glassy silicon dioxide with a hydroxyl impurity," Fiz. Khim. Stekla 13, 425 (1987).
  10. L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
    [CrossRef]
  11. P. B. Sergeev, "Electron-beam noble-gas halide lasers with high excitation level," J. Sov. Laser Res. 14, 237 (1993).
    [CrossRef]
  12. A. P. Sergeev and P. B. Sergeev, "Individual induced-absorption bands in MgF2," Kvant. Elektron. (Moscow) 38, 251 (2008) [Quantum Electron. 38, 251 (2008)].
    [CrossRef]
  13. K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
    [CrossRef]
  14. L. Skuja, H. Hosono, and M. Hirano, "Laser-induced color centers in silica," Proc. SPIE 4347, 155 (2001).
  15. L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
    [CrossRef]
  16. P. B. Sergeev and A. P. Sergeev, "Annealing of induced absorption in quartz glasses by the radiation of an ArF laser," Kvant. Elektron. (Moscow) 40, 24 (2010) [Quantum Electron. 40, 24 (2010)].
  17. E. Vella, R. Boscaino, and G. Navarra, "Vacuum-ultraviolet absorption of amorphous SiO2: intrinsic contribution and role of silanol groups," Phys. Rev. B 77, 165203 (2008).
    [CrossRef]
  18. K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
    [CrossRef]
  19. K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
    [CrossRef]
  20. E. M. Dianov, O. V. Sokolov, and V. B. Sulimov, "Numerical modelling of defects in quartz glass," Trudy IOFAN 23, 122 (1990).

2010 (1)

P. B. Sergeev and A. P. Sergeev, "Annealing of induced absorption in quartz glasses by the radiation of an ArF laser," Kvant. Elektron. (Moscow) 40, 24 (2010) [Quantum Electron. 40, 24 (2010)].

2008 (2)

E. Vella, R. Boscaino, and G. Navarra, "Vacuum-ultraviolet absorption of amorphous SiO2: intrinsic contribution and role of silanol groups," Phys. Rev. B 77, 165203 (2008).
[CrossRef]

A. P. Sergeev and P. B. Sergeev, "Individual induced-absorption bands in MgF2," Kvant. Elektron. (Moscow) 38, 251 (2008) [Quantum Electron. 38, 251 (2008)].
[CrossRef]

2007 (3)

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "Radiation stability of optical materials for the windows of excimer lasers of the UV and VUV ranges," Kvant. Elektron. (Moscow) 37, 706 (2007) [Quantum Electron. 37, 706 (2007)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "The effect of the radiation of a KrF laser on e-beam-induced absorption in fluorite and quartz glasses," Kvant. Elektron. (Moscow) 37, 711 (2007) [Quantum Electron. 37, 711 (2007)].
[CrossRef]

L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
[CrossRef]

2006 (1)

K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
[CrossRef]

2005 (2)

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
[CrossRef]

2004 (2)

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

2001 (1)

L. Skuja, H. Hosono, and M. Hirano, "Laser-induced color centers in silica," Proc. SPIE 4347, 155 (2001).

1999 (1)

K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
[CrossRef]

1993 (1)

P. B. Sergeev, "Electron-beam noble-gas halide lasers with high excitation level," J. Sov. Laser Res. 14, 237 (1993).
[CrossRef]

1990 (1)

E. M. Dianov, O. V. Sokolov, and V. B. Sulimov, "Numerical modelling of defects in quartz glass," Trudy IOFAN 23, 122 (1990).

1988 (1)

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

1987 (2)

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

A. R. Silin’, D. K. Millers, and I. A. Khinoverova, "The effect of radiation on glassy silicon dioxide with a hydroxyl impurity," Fiz. Khim. Stekla 13, 425 (1987).

1983 (1)

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

Abramov, A. V.

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

Amosov, A. V.

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

Boganov, A. G.

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

Boizot, B.

L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
[CrossRef]

Boscaino, R.

E. Vella, R. Boscaino, and G. Navarra, "Vacuum-ultraviolet absorption of amorphous SiO2: intrinsic contribution and role of silanol groups," Phys. Rev. B 77, 165203 (2008).
[CrossRef]

Cannas, M.

L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
[CrossRef]

Cheremisin, I. I.

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

Chernov, P. V.

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

Dianov, E. M.

E. M. Dianov, O. V. Sokolov, and V. B. Sulimov, "Numerical modelling of defects in quartz glass," Trudy IOFAN 23, 122 (1990).

Dorfman, G. A.

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

Ermolenko, T. A.

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

Evlampiev, I. K.

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

Hirano, M.

K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
[CrossRef]

L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
[CrossRef]

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

L. Skuja, H. Hosono, and M. Hirano, "Laser-induced color centers in silica," Proc. SPIE 4347, 155 (2001).

Hosono, H.

K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
[CrossRef]

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
[CrossRef]

L. Skuja, H. Hosono, and M. Hirano, "Laser-induced color centers in silica," Proc. SPIE 4347, 155 (2001).

Ikushima, A. J.

K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
[CrossRef]

Kajihara, K.

K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
[CrossRef]

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
[CrossRef]

Khinoverova, I. A.

A. R. Silin’, D. K. Millers, and I. A. Khinoverova, "The effect of radiation on glassy silicon dioxide with a hydroxyl impurity," Fiz. Khim. Stekla 13, 425 (1987).

Kornev, V. V.

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

Kornienko, L. S.

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

Kotani, T.

K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
[CrossRef]

Malyshkin, S. F.

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

Millers, D. K.

A. R. Silin’, D. K. Millers, and I. A. Khinoverova, "The effect of radiation on glassy silicon dioxide with a hydroxyl impurity," Fiz. Khim. Stekla 13, 425 (1987).

Miura, T.

K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
[CrossRef]

Morimoto, Y.

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

Morozova, I. O.

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

Navarra, G.

E. Vella, R. Boscaino, and G. Navarra, "Vacuum-ultraviolet absorption of amorphous SiO2: intrinsic contribution and role of silanol groups," Phys. Rev. B 77, 165203 (2008).
[CrossRef]

Parlato, A.

L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
[CrossRef]

Popov, S. A.

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

Pronina, M. S.

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

Rudenko, V. S.

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

Rybaltovskii, A. O.

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

Saito, K.

K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
[CrossRef]

Sergeev, A. P.

P. B. Sergeev and A. P. Sergeev, "Annealing of induced absorption in quartz glasses by the radiation of an ArF laser," Kvant. Elektron. (Moscow) 40, 24 (2010) [Quantum Electron. 40, 24 (2010)].

A. P. Sergeev and P. B. Sergeev, "Individual induced-absorption bands in MgF2," Kvant. Elektron. (Moscow) 38, 251 (2008) [Quantum Electron. 38, 251 (2008)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "The effect of the radiation of a KrF laser on e-beam-induced absorption in fluorite and quartz glasses," Kvant. Elektron. (Moscow) 37, 711 (2007) [Quantum Electron. 37, 711 (2007)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "Radiation stability of optical materials for the windows of excimer lasers of the UV and VUV ranges," Kvant. Elektron. (Moscow) 37, 706 (2007) [Quantum Electron. 37, 706 (2007)].
[CrossRef]

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

Sergeev, P. B.

P. B. Sergeev and A. P. Sergeev, "Annealing of induced absorption in quartz glasses by the radiation of an ArF laser," Kvant. Elektron. (Moscow) 40, 24 (2010) [Quantum Electron. 40, 24 (2010)].

A. P. Sergeev and P. B. Sergeev, "Individual induced-absorption bands in MgF2," Kvant. Elektron. (Moscow) 38, 251 (2008) [Quantum Electron. 38, 251 (2008)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "The effect of the radiation of a KrF laser on e-beam-induced absorption in fluorite and quartz glasses," Kvant. Elektron. (Moscow) 37, 711 (2007) [Quantum Electron. 37, 711 (2007)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "Radiation stability of optical materials for the windows of excimer lasers of the UV and VUV ranges," Kvant. Elektron. (Moscow) 37, 706 (2007) [Quantum Electron. 37, 706 (2007)].
[CrossRef]

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

P. B. Sergeev, "Electron-beam noble-gas halide lasers with high excitation level," J. Sov. Laser Res. 14, 237 (1993).
[CrossRef]

Silin’, A. R.

A. R. Silin’, D. K. Millers, and I. A. Khinoverova, "The effect of radiation on glassy silicon dioxide with a hydroxyl impurity," Fiz. Khim. Stekla 13, 425 (1987).

A. R. Silin’ and A. N. Trukhin, Point Defects and Elementary Excitations in Crystalline and Glassy SiO 2, Zinatne, Riga, 1985.

Skuja, L.

K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
[CrossRef]

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
[CrossRef]

L. Skuja, H. Hosono, and M. Hirano, "Laser-induced color centers in silica," Proc. SPIE 4347, 155 (2001).

Sokolov, O. V.

E. M. Dianov, O. V. Sokolov, and V. B. Sulimov, "Numerical modelling of defects in quartz glass," Trudy IOFAN 23, 122 (1990).

Sulimov, V. B.

E. M. Dianov, O. V. Sokolov, and V. B. Sulimov, "Numerical modelling of defects in quartz glass," Trudy IOFAN 23, 122 (1990).

Trukhin, A. N.

A. R. Silin’ and A. N. Trukhin, Point Defects and Elementary Excitations in Crystalline and Glassy SiO 2, Zinatne, Riga, 1985.

Turoverov, P. K.

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

Uramoto, M.

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

Vaccaro, L.

L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
[CrossRef]

Vella, E.

E. Vella, R. Boscaino, and G. Navarra, "Vacuum-ultraviolet absorption of amorphous SiO2: intrinsic contribution and role of silanol groups," Phys. Rev. B 77, 165203 (2008).
[CrossRef]

Zhakhov, V. V.

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

Zvorykin, V. D.

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "The effect of the radiation of a KrF laser on e-beam-induced absorption in fluorite and quartz glasses," Kvant. Elektron. (Moscow) 37, 711 (2007) [Quantum Electron. 37, 711 (2007)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "Radiation stability of optical materials for the windows of excimer lasers of the UV and VUV ranges," Kvant. Elektron. (Moscow) 37, 706 (2007) [Quantum Electron. 37, 706 (2007)].
[CrossRef]

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

Fiz. Khim. Stekla (4)

A. V. Abramov, A. G. Boganov, L. S. Kornienko, V. S. Rudenko, A. O. Rybaltovskiĭ, and P. V. Chernov, "Radiative color centers in KS-4V quartz glass and in fiber lightguides based on it," Fiz. Khim. Stekla 14(1), 91 (1988).

A. V. Amosov, G. A. Dorfman, V. V. Zhakhov, V. V. Kornev, and S. F. Malyshkin, "The role of process impurities of hydrogen and chlorine in radiation processes in quartz glass," Fiz. Khim. Stekla 9, 741 (1983).

A. V. Amosov, L. S. Kornienko, I. O. Morozova, A. O. Rybaltovskiĭ, and P. V. Chernov, "Features of radiation-stimulated formation of nonbridging oxygen atoms in KU-1 quartz glass (type 111)," Fiz. Khim. Stekla 13, 126 (1987).

A. R. Silin’, D. K. Millers, and I. A. Khinoverova, "The effect of radiation on glassy silicon dioxide with a hydroxyl impurity," Fiz. Khim. Stekla 13, 425 (1987).

J. Appl. Phys. (2)

K. Saito, A. J. Ikushima, T. Kotani, and T. Miura, "Effects of preirradiation and thermal annealing on photoinduced defects creation in synthetic silica glass," J. Appl. Phys. 86, 3497 (1999).
[CrossRef]

K. Kajihara, M. Hirano, M. Uramoto, Y. Morimoto, L. Skuja, and H. Hosono, "Interstitial oxygen molecules in amorphous SiO2. Quantitative concentration analysis by thermal desorption, infrared photoluminescence, and vacuum-ultraviolet optical absorption," J. Appl. Phys. 98, 013527 (2005).
[CrossRef]

J. Non-Cryst. Solids (2)

K. Kajihara, M. Hirano, L. Skuja, and H. Hosono, "Vacuum-ultraviolet absorption of interstitial O2 and H2O molecules in SiO2 glass," J. Non-Cryst. Solids 352, 2303 (2006).
[CrossRef]

L. Vaccaro, M. Cannas, B. Boizot, and A. Parlato, "Radiation-induced generation of non-bridging oxygen hole center in silica: intrinsic and extrinsic processes," J. Non-Cryst. Solids 353, 586 (2007).
[CrossRef]

J. Sov. Laser Res. (1)

P. B. Sergeev, "Electron-beam noble-gas halide lasers with high excitation level," J. Sov. Laser Res. 14, 237 (1993).
[CrossRef]

Kvant. Elektron. (Moscow) (4)

A. P. Sergeev and P. B. Sergeev, "Individual induced-absorption bands in MgF2," Kvant. Elektron. (Moscow) 38, 251 (2008) [Quantum Electron. 38, 251 (2008)].
[CrossRef]

P. B. Sergeev and A. P. Sergeev, "Annealing of induced absorption in quartz glasses by the radiation of an ArF laser," Kvant. Elektron. (Moscow) 40, 24 (2010) [Quantum Electron. 40, 24 (2010)].

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "Radiation stability of optical materials for the windows of excimer lasers of the UV and VUV ranges," Kvant. Elektron. (Moscow) 37, 706 (2007) [Quantum Electron. 37, 706 (2007)].
[CrossRef]

P. B. Sergeev, A. P. Sergeev, and V. D. Zvorykin, "The effect of the radiation of a KrF laser on e-beam-induced absorption in fluorite and quartz glasses," Kvant. Elektron. (Moscow) 37, 711 (2007) [Quantum Electron. 37, 711 (2007)].
[CrossRef]

Opt. Zh. (1)

P. B. Sergeev, T. A. Ermolenko, I. K. Evlampiev, V. D. Zvorykin, S. A. Popov, M. S. Pronina, A. P. Sergeev, P. K. Turoverov, and I. I. Cheremisin, "Electron-beam-induced absorption in quartz glasses," Opt. Zh. 71(6), 93 (2004) [J. Opt. Technol. 71, 415 (2004)].

Phys. Rev. B (1)

E. Vella, R. Boscaino, and G. Navarra, "Vacuum-ultraviolet absorption of amorphous SiO2: intrinsic contribution and role of silanol groups," Phys. Rev. B 77, 165203 (2008).
[CrossRef]

Phys. Status Solidi C (1)

L. Skuja, M. Hirano, H. Hosono, and K. Kajihara, "Defects in oxide glasses," Phys. Status Solidi C 2, 15 (2005).
[CrossRef]

Proc. SPIE (2)

L. Skuja, H. Hosono, and M. Hirano, "Laser-induced color centers in silica," Proc. SPIE 4347, 155 (2001).

P. B. Sergeev, I. I. Cheremisin, T. A. Ermolenko, I. K. Evlampiev, S. A. Popov, M. S. Pronina, P. K. Turoverov, A. P. Sergeev, and V. D. Zvorykin, "E-beam-induced absorption in various grades of quartz," Proc. SPIE 5506, 81 (2004).

Trudy IOFAN (1)

E. M. Dianov, O. V. Sokolov, and V. B. Sulimov, "Numerical modelling of defects in quartz glass," Trudy IOFAN 23, 122 (1990).

Other (1)

A. R. Silin’ and A. N. Trukhin, Point Defects and Elementary Excitations in Crystalline and Glassy SiO 2, Zinatne, Riga, 1985.

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