2007
DOI: 10.1002/pssb.200675604
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Optical analysis of dislocation‐related physical processes in GaN‐based epilayers

Abstract: In this paper, recent progresses in optical analysis of dislocation-related physical properties in GaN-based epilayers are surveyed with a brief review. The influence of dislocations on both near-band edge emission and yellow luminescence (YL) is examined either in a statistical way as a function of dislocation density or focused on individual dislocation lines with a high spatial resolution. Threading dislocations may introduce non-radiative recombination centers and enhance YL, but their effects are affected… Show more

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Cited by 14 publications
(12 citation statements)
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“…The weaker blue emission peak at 390 nm can be attributed to the transition from a shallow donor state to a shallow acceptor state involving defect levels or residual impurities [22,23]. The peak at 532 nm corresponds to the well-known "yellow" emission band associated with the existence of defect or surface states [24,25]. It should be noted that the near band emission of GaN cannot be observed, which may result from overlap with the broad blue emission peak at 390 nm.…”
Section: Resultsmentioning
confidence: 99%
“…The weaker blue emission peak at 390 nm can be attributed to the transition from a shallow donor state to a shallow acceptor state involving defect levels or residual impurities [22,23]. The peak at 532 nm corresponds to the well-known "yellow" emission band associated with the existence of defect or surface states [24,25]. It should be noted that the near band emission of GaN cannot be observed, which may result from overlap with the broad blue emission peak at 390 nm.…”
Section: Resultsmentioning
confidence: 99%
“…12 All nanowires reported in this study were grown by metalorganic chemical vapor deposition (MOCVD), as previously reported. 6,13 First, we investigated the overall optical properties of individual GaN/AlGaN core-shell (CS) nanowires.…”
mentioning
confidence: 99%
“…They behave as non-radiative recombination centers with energy levels in the forbidden gap and thus form trapping centers, act as charged scattering centers, 57 and provide a leakage current pathway. 58,59 Recent research has found that pure screw components, which are solely responsible for the leakage paths, are uncharged, while edge dislocations behave as negatively charged scatterers because the associated traps are filled with electrons. 60 The edge dislocation has a repulsive potential around its line, which will not deteriorate the device's performance in which electrons transport parallel to the edge.…”
Section: B Gan Growthmentioning
confidence: 99%