Papers by Keyword: Intrinsic Point Defects

Abstract: In this paper, the dielectric properties of ZnO-Bi₂O₃ based varistor ceramics doped with Li are investigated by Novocontrol wide band dielectric spectrometer. It is found that Lithium is an amphoteric impurity. If the content of Lithium is very low, It will enters into the interstitials and Lithium interstitial is formed as a donor. While with the increase of Lithium content, Zn is replaced with Li and Lithium substitution for Zinc as a acceptor is formed. If the content of Lithium increases further, Lithium interstitial is formed again with the redundant Lithium. Therefore, the concentrations of intrinsic point defects of Zinc interstitial and oxygen vacancy varies with the content of Lithium, which leads to the increase of Schottky barrier at grainboundary with Lithium.

Abstract: We employed Laplace transform deep level transient spectroscopy (LDLTS) for the resolution of the EH6/7 center in n-type 4H-SiC epilayers. Our results suggest that this technique is effective in separating the emission rates of the EH6 and EH7 levels. From the Arrhenius dependence of the emission rates we could estimate the energy position of EH6 and EH7 as 1.39 and 1.49 eV below the minimum of the conduction band edge, respectively. Generation of of EH6 and EH7 centers by low-energy electron irradiation (dose dependence) was also investigated. At last, a double pulse Laplace DLTS is performed in order to show the electric filed dependence of the emission rates of EH6 and EH7.

Abstract: Deep Level Transient Spectroscopy (DLTS) and Double-correlated DLTS (DDLTS) measurements have been conducted on Schottky contacts fabricated on n-type 4H-SiC epilayers using different contact metals in order to separate the EH₆- and EH₇-centers, which usually appear as a broad double peak in DLTS spectra. The activation energy of EH₆ (E_C - E_T(EH₆) = 1.203 eV) turns out to be independent of the electric field. As a consequence, EH₆ is acceptor-like according to the missing Poole-Frenkel effect. Therefore, it can be excluded that the EH₆-center and the prominent acceptor-like Z_1/2-center belong to different charge states of the same microscopic defect as theoretically suggested. It is proposed that EH₆ is a complex containing a carbon vacancy and another component available at high concentrations. The activation energy of EH₇ (E_C - E_T(EH₇) = 1.58 eV) has been evaluated indirectly by fitting the DLTS spectra of the EH_6/7 double peak taking the previously determined parameters of EH₆ into account.