2001
DOI: 10.1103/physrevlett.87.277401
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Near-Field Magnetophotoluminescence Spectroscopy of Composition Fluctuations in InGaAsN

Abstract: The localization of excitons on quantum-dot-like compositional fluctuations has been observed in temperature-dependent near-field magnetophotoluminescence spectra of InGaAsN. Localization is driven by the giant bowing parameter of these alloys and manifests itself by the appearance of ultranarrow lines (half-width <1 meV) at temperatures below 70 K. We show how near-field optical scanning microscopy can be used for the estimation of the size, density, and nitrogen excess of individual compositional fluctuation… Show more

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Cited by 91 publications
(83 citation statements)
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“…9,10 For comparison, we first examined the dynamics of the GaN x As 1−x sample by the conventional optical pump-probe method. The system setup was similar to that shown in Fig.…”
mentioning
confidence: 99%
“…9,10 For comparison, we first examined the dynamics of the GaN x As 1−x sample by the conventional optical pump-probe method. The system setup was similar to that shown in Fig.…”
mentioning
confidence: 99%
“…These PL lines can be attributed to recombination of excitons localized within certain spatial regions of the NWs by compositional disorder. Indeed, local fluctuations in [N] may create a threedimensional confinement acting as quantum dots (QD) 29 that are distributed along the NWs. Additionally, the sharp lines can also stem from excitons trapped at stacking faults caused by WZ/ZB polymorphism.…”
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confidence: 99%
“…This principle was realized nearly three decades ago using nano-apertures (Lewis et al, 1984, Pohl et al, 1984, metallic (Fischer and Pohl ,1989) and dielectric (Coutjon et al 1989, Reddick at al., 1989 nano-tips, allowing nanometer-scale spatial resolution in optical experiments with a wide range of applications including experiments with single semiconductor QDs (Flack et al, 1996, Toda et al, 1996. The high spatial resolution, scanning ability and nondestructive character of the experiment in combination with a high magnetic field and timeresolved techniques, allows the use of NSOM to study structural parameters (Mintairov et al, 2001), the spin structure of exciton states (Ortner et al, 2003, Toda et al, 1998, the temporal coherence of the wave functions (Toda et al, 2000), and the mechanisms of carrier migration (K. Matsuda et al, 2000) and relaxation (Toda et al, 1999) in semiconductor QDs.…”
Section: Optical Spectroscopy Of Quantum Dotsmentioning
confidence: 99%