2005
DOI: 10.1063/1.1990247
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Near-field measurement of spectral anisotropy and optical absorption of isolated ZnO nanorod single-quantum-well structures

Abstract: We report low-temperature near-field spectroscopy of isolated ZnO / ZnMgO single-quantum-well structures ͑SQWs͒ on the end of ZnO nanorod to define their potential for nanophotonics. First, absorption spectra of isolated ZnO / ZnMgO nanorod SQWs with the Stokes shift as small as 3 meV and very sharp photoluminescent peaks indicate that the nanorod SQWs are of very high optical quality. Furthermore, we performed polarization spectroscopy of isolated ZnO SQWs, and observed valence-band anisotropy of ZnO SQWs in … Show more

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Cited by 30 publications
(11 citation statements)
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“…The absorption spectra of isolated quantum‐well structures displayed a small Stokes shift of 3 meV and sharp PL peaks. Furthermore, polarization spectroscopy of isolated nanorod quantum wells revealed valence‐band anisotropy in PL spectra 157. Since the exciton in a quantum structure is an ideal two‐level system with long coherence times, their results provided criteria for designing nanophotonic switches, which was indeed reported in a more recent publication 158.…”
Section: Axial Heterostructuresmentioning
confidence: 70%
See 1 more Smart Citation
“…The absorption spectra of isolated quantum‐well structures displayed a small Stokes shift of 3 meV and sharp PL peaks. Furthermore, polarization spectroscopy of isolated nanorod quantum wells revealed valence‐band anisotropy in PL spectra 157. Since the exciton in a quantum structure is an ideal two‐level system with long coherence times, their results provided criteria for designing nanophotonic switches, which was indeed reported in a more recent publication 158.…”
Section: Axial Heterostructuresmentioning
confidence: 70%
“…Even though it is an interesting observation, more detailed experiments and theoretical modeling are required to make such claims in complex heterostructured systems at length scales that are smaller than the exciton Bohr radius. Yatsui et al157 reported low‐temperature near‐field spectroscopy of isolated ZnOZnMgO single‐quantum‐well structures grown on the end of ZnO nanorods. The absorption spectra of isolated quantum‐well structures displayed a small Stokes shift of 3 meV and sharp PL peaks.…”
Section: Axial Heterostructuresmentioning
confidence: 99%
“…Five transitions are observed in reflectivity spectra of ZnO bulk layers [16,17], corresponding to the 3Γ 5 excitons (A, B, C) -coupled to light emitted parallel to the growth axis in our QWs -and the 2Γ 1 excitons (B, C) -coupled to light emitted perpendicular to the growth axis in our QWs. Γ 5 excitons are therefore accessible in our PL experimental conditions, whereas Γ 1 excitons can only be observed from the edges of the samples [18]. The energy dispersion of these excitons is governed by the crystal field, the spin-orbit interaction and the electron-hole exchange interaction [19,20].…”
Section: Excitonic Fine Structurementioning
confidence: 91%
“…Recently, indications for embedded ZnO QDs were found in axial ZnO/MgZnO multiple QW structures, showing an additional peak in low-temperature photoluminescence spectroscopy [44]. In single ZnO/MgZnO QWs on top of isolated nanowires, the usually broad QW emission band consisted of two sharp and polarization dependent peaks in near-field PL [45] with line widths between 3 and 12 meV.…”
Section: Quantum Dots In Nanowiresmentioning
confidence: 99%