Electron beam charge injection and modification of electronical and optical properties of SiO2

H. J. Fitting; M. Goldberg; A. N. Trukhin; T. Barfels

Electron beam charge injection and modification of electronical and optical properties of SiO₂

H. J. Fitting^*
, M. Goldberg
, A. N. Trukhin
, T. Barfels

^*Corresponding author for this work

University of Rostock

Research output: Contribution to conference › Paper › peer-review

1 Citation (Scopus)

Abstract

Ionizing radiation in the dielectric and optically transparent material SiO₂ produces defect luminescence as well as exoelectron emission. Under cathodo-excitation, e.g. the main blue luminescence band at 460 nm (2.7 eV) is appearing and then strongly growing with an exponential saturation. The luminescence center is correlated with oxygen deficiency and twofold-coordinated silicon = Si:. A simple oxygen vacancy presents the precursor for this kind of defect transformation. A comparison of different excitation-relaxation processes like cathodoluminescence (CL), charge injection (IV) and trapping, secondary electron field emission (SEFE), and exoelectron emission (EEE) leads to a generally similar excitation-dose behaviour with an electron beam saturation dose of about 0.01-0.1 As/cm². This suggests itself a correlation of these four excitation mechanisms likely related to the same kind of defect in glassy SiO₂.

Original language	English
Pages	696-699
Number of pages	4
Publication status	Published - 1998
Externally published	Yes
Event	Proceedings of the 1998 3rd International Conference on Electric Charge in Solid Insulators, CSC'3 - Paris, Fr Duration: 29 Jun 1998 → 3 Jul 1998

Conference

Conference	Proceedings of the 1998 3rd International Conference on Electric Charge in Solid Insulators, CSC'3
City	Paris, Fr
Period	29/06/98 → 3/07/98

Cite this

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title = "Electron beam charge injection and modification of electronical and optical properties of SiO2",

abstract = "Ionizing radiation in the dielectric and optically transparent material SiO2 produces defect luminescence as well as exoelectron emission. Under cathodo-excitation, e.g. the main blue luminescence band at 460 nm (2.7 eV) is appearing and then strongly growing with an exponential saturation. The luminescence center is correlated with oxygen deficiency and twofold-coordinated silicon = Si:. A simple oxygen vacancy presents the precursor for this kind of defect transformation. A comparison of different excitation-relaxation processes like cathodoluminescence (CL), charge injection (IV) and trapping, secondary electron field emission (SEFE), and exoelectron emission (EEE) leads to a generally similar excitation-dose behaviour with an electron beam saturation dose of about 0.01-0.1 As/cm2. This suggests itself a correlation of these four excitation mechanisms likely related to the same kind of defect in glassy SiO2.",

author = "Fitting, \{H. J.\} and M. Goldberg and Trukhin, \{A. N.\} and T. Barfels",

year = "1998",

language = "English",

pages = "696--699",

note = "Proceedings of the 1998 3rd International Conference on Electric Charge in Solid Insulators, CSC'3 ; Conference date: 29-06-1998 Through 03-07-1998",

}

TY - CONF

T1 - Electron beam charge injection and modification of electronical and optical properties of SiO2

AU - Fitting, H. J.

AU - Goldberg, M.

AU - Trukhin, A. N.

AU - Barfels, T.

PY - 1998

Y1 - 1998

N2 - Ionizing radiation in the dielectric and optically transparent material SiO2 produces defect luminescence as well as exoelectron emission. Under cathodo-excitation, e.g. the main blue luminescence band at 460 nm (2.7 eV) is appearing and then strongly growing with an exponential saturation. The luminescence center is correlated with oxygen deficiency and twofold-coordinated silicon = Si:. A simple oxygen vacancy presents the precursor for this kind of defect transformation. A comparison of different excitation-relaxation processes like cathodoluminescence (CL), charge injection (IV) and trapping, secondary electron field emission (SEFE), and exoelectron emission (EEE) leads to a generally similar excitation-dose behaviour with an electron beam saturation dose of about 0.01-0.1 As/cm2. This suggests itself a correlation of these four excitation mechanisms likely related to the same kind of defect in glassy SiO2.

AB - Ionizing radiation in the dielectric and optically transparent material SiO2 produces defect luminescence as well as exoelectron emission. Under cathodo-excitation, e.g. the main blue luminescence band at 460 nm (2.7 eV) is appearing and then strongly growing with an exponential saturation. The luminescence center is correlated with oxygen deficiency and twofold-coordinated silicon = Si:. A simple oxygen vacancy presents the precursor for this kind of defect transformation. A comparison of different excitation-relaxation processes like cathodoluminescence (CL), charge injection (IV) and trapping, secondary electron field emission (SEFE), and exoelectron emission (EEE) leads to a generally similar excitation-dose behaviour with an electron beam saturation dose of about 0.01-0.1 As/cm2. This suggests itself a correlation of these four excitation mechanisms likely related to the same kind of defect in glassy SiO2.

UR - https://www.scopus.com/pages/publications/0031631959

M3 - Paper

AN - SCOPUS:0031631959

SP - 696

EP - 699

T2 - Proceedings of the 1998 3rd International Conference on Electric Charge in Solid Insulators, CSC'3

Y2 - 29 June 1998 through 3 July 1998

ER -

Electron beam charge injection and modification of electronical and optical properties of SiO₂

Abstract

Conference

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