New Local Vibrational Modes Related to Silicon in Bulk AlGaAs

Abstract: A silicon-related local vibrational mode absorption in AlGaAs is reported for the first time. It consists of six peaks grouped around 450 cm -1 which form a distinct pattern. We believe tlat the new local vibrational mode absorption is a fingerprint of a single defect. Among the discussed microscopic structures the most plausible is a SiG a -SiA S pair complex with Silks acceptor interacting with different Ga, Al nearest neighbour local environments.PACS numbers: 61.72. Vv, 63.20.Pw, 71.55.Eq A cucial facto… Show more

“…The absorption cannot be due to a transition to either the valence band or the nearest conduction band for energetical reasons. It is thought that it is a transition to the X 3 -band minimum, in agreement with Kaczor et al (1993) and our previous results on Si. Note, that a very similar MCDA has been observed previously for shallow Te 0 and S 0 donors in GaP, which was interpreted as a transition to the L-band minimum (Spaeth et al 1993) (see figure 7(b) for comparison).…”

“…The failure to see the MCDA in an LPE sample with x = 0.35 (Peale et al 1991) seems consistent with the failure to see the IR band above 0.5 eV for x = 0.37 reported by Mori et al (1992). However, Kaczor et al (1993) reported an IR band peaking at 0.53 eV for x = 0.3 in a sample also grown by the LPE method, but apparently from a different crystal grower. It is not clear why this IR band was not observed either by Peake et al (1991) or by Mori et al (1992) for a similar Al content.…”

“…For Si 0 it was found that the onset of the MCDA (and of the maxima) shifts to higher energy with increasing Al content. Such a trend was also observed by Kaczor et al (1993) . They show the same trend with the Al content following the X-band minimum.…”

“…Later magnetooptical measurements on a substrate-free Te-doped sample with x = 0.35 failed to detect this paramagnetic state (Peale et al 1991). On the other hand, Mori et al (1992) and Kaczor et al (1993) have measured infrared absorption bands which appear after photoionization of DX centres peaking at about 0.6 eV, which were associated with the metastable Te 0 donors. It was the purpose of this work to investigate Te-doped Al x Ga 1−x As, which showed the photoinduced infrared absorption bands ascribed to Te 0 donors, using magnetooptical methods in order to see whether these bands belong indeed to a paramagnetic ground state and whether they can be correlated with the EPR spectrum found previously.…”

Magneto-optical and magnetic resonance investigations of DX centres in Te-doped

“…The absorption cannot be due to a transition to either the valence band or the nearest conduction band for energetical reasons. It is thought that it is a transition to the X 3 -band minimum, in agreement with Kaczor et al (1993) and our previous results on Si. Note, that a very similar MCDA has been observed previously for shallow Te 0 and S 0 donors in GaP, which was interpreted as a transition to the L-band minimum (Spaeth et al 1993) (see figure 7(b) for comparison).…”

“…The failure to see the MCDA in an LPE sample with x = 0.35 (Peale et al 1991) seems consistent with the failure to see the IR band above 0.5 eV for x = 0.37 reported by Mori et al (1992). However, Kaczor et al (1993) reported an IR band peaking at 0.53 eV for x = 0.3 in a sample also grown by the LPE method, but apparently from a different crystal grower. It is not clear why this IR band was not observed either by Peake et al (1991) or by Mori et al (1992) for a similar Al content.…”

“…For Si 0 it was found that the onset of the MCDA (and of the maxima) shifts to higher energy with increasing Al content. Such a trend was also observed by Kaczor et al (1993) . They show the same trend with the Al content following the X-band minimum.…”

“…Later magnetooptical measurements on a substrate-free Te-doped sample with x = 0.35 failed to detect this paramagnetic state (Peale et al 1991). On the other hand, Mori et al (1992) and Kaczor et al (1993) have measured infrared absorption bands which appear after photoionization of DX centres peaking at about 0.6 eV, which were associated with the metastable Te 0 donors. It was the purpose of this work to investigate Te-doped Al x Ga 1−x As, which showed the photoinduced infrared absorption bands ascribed to Te 0 donors, using magnetooptical methods in order to see whether these bands belong indeed to a paramagnetic ground state and whether they can be correlated with the EPR spectrum found previously.…”

Magneto-optical and magnetic resonance investigations of DX centres in Te-doped

Vibrational Absorption of Substitutional Atoms and Related Centres