Direct generation of linearly polarized photon emission with designated orientations from site-controlled InGaN quantum dots

Lundskog, Anders; Hsu, Chih-Wei; Karlsson, K. F.; Amloy, Supaluck; Nilsson, Daniel; Forsberg, Urban; Holtz, P. O.; Janzén, Erik

doi:10.1038/lsa.2014.20

Cited by 69 publications

(73 citation statements)

References 33 publications

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“…Under optimized growth conditions, most pyramids accommodate only one QD each [8] but this particular pyramid reveals spectral features of more than one QD. A small pyramid-to-pyramid variation of the top surface may be the reason for this, as truncated pyramids with intentionally larger top surface are known to accommodate more QDs [9].…”

Section: Resultsmentioning

confidence: 99%

“…QDs formed on the apex of the pyramids grown with this approach have been shown to exhibit single and sharp InGaN related emission lines with a high degree of linear polarization. A simple elongation of the pyramid base gives control of the polarization direction [8,9]. The photon statistics of these pyramidal QDs have recently been shown to exhibit anti-bunching, but an spectrally overlapping background emission of uncorrelated photons will vanish high-performance single photon characteristics of the * tomje@ifm.liu.se emission [10].…”

Section: Introductionmentioning

confidence: 99%

“…The photon statistics of these pyramidal QDs have recently been shown to exhibit anti-bunching, but an spectrally overlapping background emission of uncorrelated photons will vanish high-performance single photon characteristics of the * tomje@ifm.liu.se emission [10]. Cathodoluminescence measurements have revealed that the broad background emission mainly originates from the bottom edges near the pyramid base [9].…”

Section: Introductionmentioning

confidence: 99%

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Polarized single photon emission and photon bunching from an InGaN quantum dot on a GaN micropyramid

Jemsson

Machhadani²,

Holtz³

et al. 2015

Nanotechnology

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We report on excitonic single photon emission and biexcitonic photon bunching from an InGaN quantum dot formed on the apex of a hexagonal GaN micropyramid. An approach to suppress uncorrelated emission from the pyramid base is proposed, a metal film is demonstrated to effectively screen background emission and thereby significantly enhance the signal-to-background ratio of the quantum dot emission. As a result, the second order coherence function at zero time delay g (2) (0) is significantly reduced (to g (2) (0) = 0.24, raw value) for the excitonic autocorrelation at a temperature of 12 K under continuous wave excitation, and a dominating single photon emission is demonstrated to survive up to 50 K. The deterioration of the g (2) (0)-value at elevated temperatures is well understood as the combined effect of reduced signal-to-background ratio and limited time resolution of the setup. This result underlines the great potential of site controlled pyramidal dots as sources of fast polarized single photons.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Polarized single photon emission and photon bunching from an InGaN quantum dot on a GaN micropyramid

Jemsson

Machhadani²,

Holtz³

et al. 2015

Nanotechnology

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“…14 Moreover, a simple elongation of the pyramid base gives control of the polarization direction of the InGaN emission, as it is found to be well-aligned with the designed elongation. 15 The first experimental evidence of a trion in a nitride QD has also been reported for these structures. 16 However, although several indirect evidences of QD formation in these pyramidal structures have been observed, no direct proof has yet been provided.…”

mentioning

confidence: 91%

Linearly polarized single photon antibunching from a site-controlled InGaN quantum dot

Jemsson

Machhadani

Karlsson

et al. 2014

Applied Physics Letters

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We report on the observation of linearly polarized single photon antibunching in the excitonic emission from a site-controlled InGaN quantum dot. The measured second order coherence function exhibits a significant dip at zero time difference, corresponding to g(m)(2) (0) = 0: 90 under continuous laser excitation. This relatively high value of g(m)(2) (0) is well understood by a model as the combination of short exciton life time (320 ps), limited experimental timing resolution and the presence of an uncorrelated broadband background emission from the sample. Our result provides the first rigorous evidence of InGaN quantum dot formation on hexagonal GaN pyramids, and it highlights a great potential in these dots as fast polarized single photon emitters if the background emission can be eliminated.

Funding Agencies|Carl Trygger Foundation for Scientific Research; Swedish Research Council (VR); Nano-N consortium - Swedish Foundation for Strategic Research (SSF); Knut and Alice Wallenberg Foundation; Swedish Government Strategic Research Area in Materials Science on Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; Font-D, at Linkoping University

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“…Consequently, much effort is needed to define the anisotropy, in order to obtain consistently high DOLPs with deterministic polarization directions. Such experimental reports in the nitrides are limited to the manipulation of pyramidal geometries [22], elliptical QDs [23], or the use of nanowires [24,25], where the geometries of the structures make electrical contacting challenging. As such, a simpler and more practical method is needed to achieve polarization control, for the realization of on-chip polarized single-photon generation and related applications.…”

Section: Introductionmentioning

confidence: 99%

Direct generation of linearly polarized single photons with a deterministic axis in quantum dots

et al. 2017

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Abstract:We report the direct generation of linearly polarized single photons with a deterministic polarization axis in self-assembled quantum dots (QDs), achieved by the use of non-polar InGaN without complex device geometry engineering. Here, we present a comprehensive investigation of the polarization properties of these QDs and their origin with statistically significant experimental data and rigorous k·p modeling. The experimental study of 180 individual QDs allows us to compute an average polarization degree of 0.90, with a standard deviation of only 0.08. When coupled with theoretical insights, we show that these QDs are highly insensitive to size differences, shape anisotropies, and material content variations. Furthermore, 91% of the studied QDs exhibit a polarization axis along the crystal [1-100] axis, with the other 9% polarized orthogonal to this direction. These features give non-polar InGaN QDs unique advantages in polarization control over other materials, such as conventional polar nitride, InAs, or CdSe QDs. Hence, the ability to generate single photons with polarization control makes non-polar InGaN QDs highly attractive for quantum cryptography protocols.

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Direct generation of linearly polarized photon emission with designated orientations from site-controlled InGaN quantum dots

Cited by 69 publications

References 33 publications

Polarized single photon emission and photon bunching from an InGaN quantum dot on a GaN micropyramid

Polarized single photon emission and photon bunching from an InGaN quantum dot on a GaN micropyramid

Linearly polarized single photon antibunching from a site-controlled InGaN quantum dot

Direct generation of linearly polarized single photons with a deterministic axis in quantum dots

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