2016
DOI: 10.1002/pssb.201600338
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Slow decay of a defect‐related emission band at 2.05 eV in AlN: Signatures of oxygen‐related DX states

Abstract: We report on a defect‐related broad emission band at around 2.05 eV in bulk aluminum nitride crystals nominally undoped, but containing high concentrations of carbon, oxygen, and silicon. Time‐resolved photoluminescence spectroscopy yields two different exponential decays of this band: A slower process with 1.5 ms lifetime, and a faster process with a characteristic lifetime below 100 ns, which is activated with around 180 meV energy. The slow decay is ascribed to a spin‐forbidden transition between an oxygen‐… Show more

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Cited by 11 publications
(31 citation statements)
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References 62 publications
(113 reference statements)
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“…Based on these results, we identify a common excitation channel for all bands at around 3.95 eV (#b), and two additional ones at around 3.6 eV (#a) and around 4.3 eV (#c) for the other two samples. The common excitation channel at 3.95 eV was already tentatively assigned by Lamprecht et al to an electron excitation from a deep carbon related acceptor or VAl into the conduction band, based on studies on sample #S1 and on another sample equivalent to sample #S3 used here.…”
Section: Resultsmentioning
confidence: 64%
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“…Based on these results, we identify a common excitation channel for all bands at around 3.95 eV (#b), and two additional ones at around 3.6 eV (#a) and around 4.3 eV (#c) for the other two samples. The common excitation channel at 3.95 eV was already tentatively assigned by Lamprecht et al to an electron excitation from a deep carbon related acceptor or VAl into the conduction band, based on studies on sample #S1 and on another sample equivalent to sample #S3 used here.…”
Section: Resultsmentioning
confidence: 64%
“…), the TRPL measurements of the 1.86 eV PL band in sample #S2 show two distinct characteristic lifetimes at 30 K (data not shown here): a slower part with τ1false(3.2±0.3false)ms and a faster part with a lifetime shorter than the time resolution of the setup used. Again, this similarity in TRPL hints to equivalent underlying recombination processes of the 1.86 eV band and the 2.05 eV band, that is, spectrally overlapping contributions of energetically close lying initial D0 and DX states in a transition to a deep acceptor .…”
Section: Resultsmentioning
confidence: 67%
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