Characterization of deep level defects in Si irradiated with MeV Ar + ions using constant capacitance time analyzed transient spectroscopy
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TLDR
In this article, an isothermal transient spectroscopy (TATS) in the constant capacitance (CC) mode has been used to characterize electrically active defects in the MeV Ar+ implanted silicon.Abstract:
An isothermal spectroscopic technique called time analyzed transient spectroscopy (TATS) in the constant capacitance (CC) mode has been used to characterize electrically active defects in the MeV Ar+ implanted silicon. The problems associated with high defect density and the presence of damaged region in the as-implanted material are overcome by CC-TATS method. The CC-TATS spectra of the as-implanted sample shows two positive peaks and an attendant negative peak. Two distinct traps have also been identified using thermally stimulated capacitance method modified to operate in constant capacitance mode. Variable pulse width measurements using CC-TATS show exponential capture kinetics in contrast to extremely slow capture observed in conventional deep level transient spectroscopy (DLTS) experiment. The results indicate that trapping behaviour is due to point-like defects associated with extended defects such as dislocation and stacking fault.read more
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Journal ArticleDOI
Electrical properties of dislocations and point defects in plastically deformed silicon.
TL;DR: Comparison of the deep-level transient spectroscopy (DLTS) and EPR results allowed tentative identification of the different DLTS lines with particular EPR spectra, and thus conclusions about the microscopic models for different defects were reached.
Journal ArticleDOI
On the Energy Spectrum of Dislocations in Silicon
TL;DR: Using deep level transient spectroscopy (DLTS) the defects introduced into silicon by plastic deformation are investigated with respect to their capture and emission characteristics as discussed by the authors, in agreement with what has been found by electron spin resonance (EPR).
Journal ArticleDOI
A feedback method for investigating carrier distributions in semiconductors
TL;DR: In this article, a feedback loop is used in such a way as to provide a controlled motion of the low-field boundary of the depletion layer, which can be one of two kinds, either that of a constant amplitude modulation of depletion layer width or else a motion corresponding to an electric field.
Journal ArticleDOI
Transient capacitance measurements on resistive samples
TL;DR: In this article, the authors pointed out that depending on the value of the sample resistance in series with the diode capacitance, the DLTS signal can be strongly reduced and even its sign may be reversed, entailing a possible confusion between majority and minority carrier traps.
Journal ArticleDOI
Inhomogeneities in plastically deformed silicon single crystals. II. Deep-level transient spectroscopy investigations of p- and n-doped silicon.
TL;DR: Part of the disorder is related to fluctuations of the band edges and Contributions of fluctuating Coulomb potentials and variations of the capture cross sections caused by compensation probably contribute to the broadening of the energy levels.
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