Strongly polarized quantum-dot-like light emitters embedded in GaAs/GaNAs core/shell nanowires

Filippov, Stanislav; Jansson, Mattias; Stehr, Jan Eric; Pališaitis, Justinas; Persson, Per O. Å.; Ishikawa, Fumitaro; Chen, Weimin; Buyanova, Irina

doi:10.1039/c6nr05168e

Cited by 23 publications

(35 citation statements)

References 67 publications

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“…They predominantly crystalized in the zinc-blende crystal structure and had only few structural defects (below 5 twins per micrometer) within the bottom part of the wire of 1-2 m, though the twin density progressively increased towards the NW top [45].…”

Section: Methodsmentioning

confidence: 99%

Dilute Nitride Nanowire Lasers Based on a GaAs/GaNAs Core/Shell Structure

et al. 2017

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Nanowire (NW) lasers operating in the near-infrared spectral range are of significant technological importance for applications in telecommunications, sensing, and medical diagnostics. So far, lasing within this spectral range has been achieved using GaAs/AlGaAs, GaAs/GaAsP, and InGaAs/GaAs core/shell NWs. Another promising III–V material, not yet explored in its lasing capacity, is the dilute nitride GaNAs. In this work, we demonstrate, for the first time, optically pumped lasing from the GaNAs shell of a single GaAs/GaNAs core/shell NW. The characteristic “S”-shaped pump power dependence of the lasing intensity, with the concomitant line width narrowing, is observed, which yields a threshold gain, g th , of 3300 cm–1 and a spontaneous emission coupling factor, β, of 0.045. The dominant lasing peak is identified to arise from the HE21b cavity mode, as determined from its pronounced emission polarization along the NW axis combined with theoretical calculations of lasing threshold for guided modes inside the nanowire. Even without intentional passivation of the NW surface, the lasing emission can be sustained up to 150 K. This is facilitated by the improved surface quality due to nitrogen incorporation, which partly suppresses the surface-related nonradiative recombination centers via nitridation. Our work therefore represents the first step toward development of room-temperature infrared NW lasers based on dilute nitrides with extended tunability in the lasing wavelength.

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Section: Methodsmentioning

confidence: 99%

Dilute Nitride Nanowire Lasers Based on a GaAs/GaNAs Core/Shell Structure

et al. 2017

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“…In addition to a broad background emission that stems [30] from radiative recombination of excitons weakly localized within long-range potential fluctuations in the Ga(N, As) shell, the spectra contain numerous sharp PL lines. We have previously shown that these lines originate from strongly-localized QD-like emitters within the Ga(N, As) shell with the principal quantization axis of the QDs preferentially aligned along the NW growth axis (z) [20]. The weak emission observed at energies exceeding the Ga(N, As) band gap (approximately 1.4 eV for [N] = 0.5%) stems from the GaAs core [32] and will not be discussed further in this paper.…”

Section: Polarization-resolved Spectroscopymentioning

confidence: 99%

“…Recently, we have shown that the spontaneous QD formation is facilitated in NW heterostructures based on dilute nitride alloys, such as GaAs/Ga(N, As) core/shell NWs [20]. Here, the QDs are formed in the active Ga(N, As) shell due to short-range fluctuations in the N composition that enable carrier confinement due to the giant band gap bowing [21]: incorporation of only 1% of nitrogen in GaAs reduces the band gap energy by approximately 0.14 eV.…”

Section: Introductionmentioning

confidence: 99%

N -induced Quantum Dots in GaAs/Ga(N,
Jansson
¹
,
Ishikawa
²
,
Chen
³

et al. 2018
Phys. Rev. Applied
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Nanowires (NWs) with embedded zero-dimensional (0D) quantum dots (QDs) have interesting fundamental properties attractive for a variety of applications. The properties of such embedded QDs can be controlled by 0D quantum confinement and also via strain engineering in axial or radial heterostructures of the nanowire system. We evaluate the electronic structure of QDs, which are formed in the Ga(N, As) shell of the GaAs/Ga(N, As) core-shell NWs due to alloy fluctuations. It is found that the principal quantization axis of the studied QDs is primarily oriented along the NW axis, based on the performed polarizationresolved magneto-photoluminescence measurements. We also show that the QDs exhibit a large spectrally dependent variation of the valence band character, which changes from pure heavy-hole states for the lowenergy QD emitters to the mixed light-hole heavy-hole states for the QDs emitting at high energies. We ascribe these changes to combined effects of the uniaxial strain caused by the lattice mismatch between the GaAs core and the Ga(N, As) shell, and the local strain/lattice distortion within the short-range fluctuations in the N content. The obtained results underline the importance of the local strain for valence band engineering in hybrid NW structures with embedded QDs.

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“…19 The numerous fine features overlapping with the broad peak could be attributed to excitons strongly confined in quantum-dot like states induced by short-range fluctuations in the nitrogen composition which are superimposed on long-range alloy disorder. 27 The third peak at around 0.93 eV may be caused by N related defects, which is often seen in dilute nitride materials. 22,28 The N composition is estimated to be $0.8% using the band anti-crossing (BAC) model and PLE spectra detected from GaAs/GaNAs core-shell NWs in Fig.…”

mentioning

confidence: 99%

Self-catalyzed core-shell GaAs/GaNAs nanowires grown on patterned Si (111) by gas-source molecular beam epitaxy

Liu

Yao

Chen

et al. 2017

Applied Physics Letters

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We report structural studies on the epitaxial growth of GaAs/GaNAs core-shell nanowires (NWs) on patterned Si (111) substrates by self-catalyzed selective area growth using Gas-Source Molecular Beam Epitaxy. Epitaxial growth conditions were obtained using a combination of dry and time-sensitive wet etching of the SiO2 growth mask and native SiO2 layer, respectively. We found that higher growth temperatures resulted in a higher yield for the epitaxial growth of patterned self-catalyzed GaAs NWs on Si with an optimal temperature of 690 °C. The GaNAs shell growth at 500 °C was found to be conformal and maintained an epitaxial and dislocation-free interface with both the Si substrate and the GaAs nanowire. The micro-photoluminescence (μ-PL) measurement at 6 K revealed two bands peaking at 1.45 and 1.17 eV, which could be emission from the GaAs core and GaNAs shell. Transmission electron microscopy showed the zincblende crystal structure of GaAs and GaAs/GaNAs core-shell NWs with minimal twinning near the base of the GaAs nanowires and at the tips of the GaAs/GaNAs core/shell nanowires. This study illustrates the feasibility of the epitaxial growth of patterned GaAs with dilute nitride shells on Si substrates, which would have potential for Si-friendly intermediate band solar cells and telecom emitters.

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Strongly polarized quantum-dot-like light emitters embedded in GaAs/GaNAs core/shell nanowires

Cited by 23 publications

References 67 publications

Dilute Nitride Nanowire Lasers Based on a GaAs/GaNAs Core/Shell Structure

Dilute Nitride Nanowire Lasers Based on a GaAs/GaNAs Core/Shell Structure

N -induced Quantum Dots in GaAs/Ga(N,
Jansson
¹
,
Ishikawa
²
,
Chen
³

et al. 2018
Phys. Rev. Applied
Self Cite
6
2
13
0
View full text Add to dashboard Cite

Self-catalyzed core-shell GaAs/GaNAs nanowires grown on patterned Si (111) by gas-source molecular beam epitaxy

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Strongly polarized quantum-dot-like light emitters embedded in GaAs/GaNAs core/shell nanowires

Cited by 23 publications

References 67 publications

Dilute Nitride Nanowire Lasers Based on a GaAs/GaNAs Core/Shell Structure

Dilute Nitride Nanowire Lasers Based on a GaAs/GaNAs Core/Shell Structure

N -induced Quantum Dots in GaAs/Ga(N,Jansson1, Ishikawa2, Chen3 et al. 2018Phys. Rev. AppliedSelf Cite62130View full textAdd to dashboardCite

Self-catalyzed core-shell GaAs/GaNAs nanowires grown on patterned Si (111) by gas-source molecular beam epitaxy

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Product

Resources

About

N -induced Quantum Dots in GaAs/Ga(N,
Jansson
¹
,
Ishikawa
²
,
Chen
³

et al. 2018
Phys. Rev. Applied
Self Cite
6
2
13
0
View full text Add to dashboard Cite