Interactions of Self-Interstitials with Interstitial Carbon-Interstitial Oxygen Center in Irradiated Silicon: An Infrared Absorption Study

Leonid I. Murin; Bengt Gunnar Svensson; Vladimir P. Markevich; Anthony R. Peaker

doi:10.4028/www.scientific.net/SSP.205-206.218

Paper Titles

Monoisotopic ²⁸Si in Spin Resonance Spectroscopy of Electrons Localized on Shallow Donors
p.191

Light-Element Impurities and their Reactions in Multicrystalline Si
p.201

Isotope-Dependent Phonon Trapping at Defects in Semiconductors
p.209

Formation of Single and Double Donor States of Trivacancy-Oxygen Complexes in P-Type Silicon
p.213

Interactions of Self-Interstitials with Interstitial Carbon-Interstitial Oxygen Center in Irradiated Silicon: An Infrared Absorption Study
p.218

PL and DLTS Analysis of Carbon-Related Centers in Irradiated P-Type Cz-Si
p.224

Infrared Defect Dynamics of Irradiation Induced Complexes in CZ Silicon - C-Rich Case
p.228

Calibration of IR Absorbance in Highly Nitrogen Doped Silicon
p.234

Dislocation Motions in Czochralski Silicon Wafers Treated by Rapid Thermal Processing under Different Atmospheres
p.238

HomeSolid State PhenomenaSolid State Phenomena Vols. 205-206Interactions of Self-Interstitials with...

Interactions of Self-Interstitials with Interstitial Carbon-Interstitial Oxygen Center in Irradiated Silicon: An Infrared Absorption Study

Abstract:

The evolution of radiation-induced carbon-oxygen related defects with the fluence of MeV electrons and upon subsequent isochronal annealing (75-350 °C) in Si crystals with different carbon and oxygen content has been studied by means of Local Vibrational Mode (LVM) spectroscopy. In particular, the generation kinetics of the bands at 998 and 991 cm^-1 is considered and additional arguments supporting their previous assignment to the I₂C_iO_i and I₃C_iO_i complexes are found. An annealing behaviour of the LVMs related to the C4 (IC_iO_i) defect has been studied in the various Si crystals irradiated with different particles. In all the samples studied the bands at 940 and 1024 cm^-1 are found to disappear at about 200 °C while three new LVM bands, at 724 cm^-1 (O-related) and at 952 and 973 cm^-1 (both C-related) are emerging. Further increase in annealing temperature up to 250-275 °C results in a transformation of the latter bands into another set of LVM bands at 969 cm^-1 (O-related) and at 951 and 977 cm^-1 (both C-related). These bands disappear upon annealing in the temperature range 300-325 °C. The ratios of all the bands intensities as well as their transformation rates do not depend on the oxygen and carbon content in the Si samples nor on the kind of irradiation (2.5 and 10 MeV electrons, fast neutrons) and irradiation doses. These facts confirm our previous conclusion that all the above-mentioned LVMs arise from the C4 defect being in different configurations (IC_iO_i, IC_iO_i*, and IC_iO_i**).

You might also be interested in these eBooks

Gettering and Defect Engineering in Semiconductor Technology XV

View Preview

Info:

Periodical:

Solid State Phenomena (Volumes 205-206)

Pages:

218-223

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.205-206.218

Citation:

Cite this paper

Online since:

October 2013

Authors:

Leonid I. Murin, Bengt Gunnar Svensson, Vladimir P. Markevich, Anthony R. Peaker

Keywords:

Defect, I_nC_iO_i Complexes, IR Absorption, Silicon, Vibrational Modes

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] G. Davies and R.C. Newman, Carbon in monocrystalline silicon, in: T.S. Moss (Ed. ), Handbook on Semiconductors, Vol. 3b, Elsevier Science, Amsterdam, 1994, pp.1557-1635.