1991
DOI: 10.1103/physrevb.43.2292
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Divacancy acceptor levels in ion-irradiated silicon

Abstract: High-purity n-type silicon samples have been irradiated with mega-electron-volt ions ('H+, He'+, ' 0, "S'+, ' Br"+, and '"I'"+), and the two divacancy-related acceptor levels -0.23 and -0.42 eV below the conduction band (E,. ), respectively, have been studied in detail using deep-level transient spectroscopy (DLTS). Depth concentration profiles show identical values for the two levels at shallow depths, while in the region close to the damage peak large deviations from a one-toone proportionality are found. Th… Show more

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Cited by 192 publications
(121 citation statements)
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“…The energy levels for the electrons associated with the charge states of (0), (-) and (2-) are at E v +0.25 eV, E c -0.42 eV and E c -0.23 eV respectively. 50 The states closest to the conduction or valence band edges have the highest carrier emission rate probabilities, with an exponential dependence on E band -E trap . In high resistivity silicon under reverse bias, the neutral state of the divacancy is most probable, by a considerable amount.…”
Section: A Divacancy Production and Charge Exchange Reactionsmentioning
confidence: 99%
“…The energy levels for the electrons associated with the charge states of (0), (-) and (2-) are at E v +0.25 eV, E c -0.42 eV and E c -0.23 eV respectively. 50 The states closest to the conduction or valence band edges have the highest carrier emission rate probabilities, with an exponential dependence on E band -E trap . In high resistivity silicon under reverse bias, the neutral state of the divacancy is most probable, by a considerable amount.…”
Section: A Divacancy Production and Charge Exchange Reactionsmentioning
confidence: 99%
“…These two centers dominate the majority carrier spectrum for n-type samples and are normally the prime defects after implantation at low doses, together with the interstitialcarbon-interstitial-oxygen complex (C i O i ) having a level at ϳ0.35 eV above the valence-band edge 7,32,33 ͑not shown here͒. The apparent deviation from a 1:1 ratio between the singly negative (V 2 Ϫ ) and doubly negative charge state (V 2 2Ϫ ) of V 2 is a characteristic feature of ion bombardment, 9,34 together with a highly nonexponential capture rate of the E C Ϫ0.23 eV level as a function of the fillingpulse duration.…”
mentioning
confidence: 99%
“…From an experimental viewpoint the divacancy has four charge states (+1, 0, -1, -2) [11] introducing in the band gap three deep energy levels [12]. These trap levels correspond to a singly ionised donor state (0/+), a singly ionised acceptor state (-/0) and doubly ionised acceptor state (=/-).…”
Section: The Divacancymentioning
confidence: 99%