Nuclear Technology & Radiation Protection Journal


NT & RP Journal	THE IMPACT OF RADIATION ON SEMICONDUCTING CHARACTERISTICS OF MONOCRYSTALLINE SILICON AND GERMANIUM
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Vol. XXXI, No. 1, Pp. 1-109 March 2016 UDC 621.039+614.876:504.06 ISSN 1451-3994 Back to Contents	Pages: 97-101 Authors: Marija D. Obrenović, Djordje R. Lazarević, Srboljub J. Stanković, and Nenad M. Kartalović Abstract The paper examines the effects of radiation on the electrical characteristics of monocrystalline silicon and germanium. Samples of monocrystalline silicon and germanium are irradiated under controlled laboratory conditions in the field of neutron, X- and γ-radiation. Change of the samples' specific resistance was measured dependent on the radiation dose with the type of radiation as a parameter. Next, the dependence of the samples resistance on temperature was recorded (in the impurities region and in intrinsic region) with the previously absorbed dose as a parameter. The results were statistically analyzed and explained on the basis of radiation effects in solids. The results are compared with those obtained by using Monte Carlo method. A good agreement was confirmed by the mentioned experimental investigation. Key words: neutron radiation, X-radiation, gamma radiation, silicon, germanium, radiation effects, Monte-Carlo method FULL PAPER IN PDF FORMAT (1.84 MB)
Vinča Institute of Nuclear Sciences :: Designed by milas :: July 2007 Operated by acapanic :: Last updated on April, 2016

Pages: 97-101

Authors: Marija D. Obrenović, Djordje R. Lazarević, Srboljub J. Stanković, and Nenad M. Kartalović

Abstract

The paper examines the effects of radiation on the electrical characteristics of monocrystalline silicon and germanium. Samples of monocrystalline silicon and germanium are irradiated under controlled laboratory conditions in the field of neutron, X- and γ-radiation. Change of the samples' specific resistance was measured dependent on the radiation dose with the type of radiation as a parameter. Next, the dependence of the samples resistance on temperature was recorded (in the impurities region and in intrinsic region) with the previously absorbed dose as a parameter. The results were statistically analyzed and explained on the basis of radiation effects in solids. The results are compared with those obtained by using Monte Carlo method. A good agreement was confirmed by the mentioned experimental investigation.

Key words: neutron radiation, X-radiation, gamma radiation, silicon, germanium, radiation effects, Monte-Carlo method

FULL PAPER IN PDF FORMAT (1.84 MB)