Max Godsland scite author profile

The growth of InAs Quantum Dots (QDs) on InP(100) via droplet epitaxy in a Metal Organic Vapour Phase Epitaxy (MOVPE) reactor is studied. Formation of Indium droplets is investigated with varying substrate temperature, and spontaneous formation of nanoholes is observed for the first time under MOVPE conditions. Indium droplets are crystallized into QDs under Arsenic flow at different temperatures. For temperatures greater than 500ºC, a local etching takes place in the QD vicinity, showing an unexpected morphology which is found to be strongly dependent on the Received: (( ))Revised: (( )) Published online: (( ))

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Tunable Photon Statistics Exploiting the Fano Effect in a Waveguide

Foster

Hallett

Iorsh

et al. 2019

Phys. Rev. Lett.

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A strong optical nonlinearity arises when coherent light is scattered by a semiconductor quantum dot (QD) coupled to a nano-photonic waveguide. We exploit the Fano effect in such a waveguide to control the phase of the quantum interference underpinning the nonlinearity, experimentally demonstrating a tunable quantum optical filter which converts a coherent input state into either a bunched, or antibunched non-classical output state. We show theoretically that the generation of non-classical light is predicated on the formation of a two-photon bound state due to the interaction of the input coherent state with the QD. Our model demonstrates that the tunable photon statistics arise from the dependence of the sign of two-photon interference (either constructive or destructive) on the detuning of the input relative to the Fano resonance.

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Droplet epitaxy of InAs/InP quantum dots via MOVPE by using an InGaAs interlayer

Sala

Godsland

et al. 2021

Nanotechnology

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InAs quantum dots (QDs) are grown on an In0.53Ga0.47As interlayer and embedded in an InP(100) matrix. They are fabricated via droplet epitaxy (DE) in a metal organic vapor phase epitaxy (MOVPE) reactor. Formation of metallic indium droplets on the In0.53Ga0.47As lattice-matched layer and their crystallization into QDs is demonstrated for the first time in MOVPE. The presence of the In0.53Ga0.47As layer prevents the formation of an unintentional non-stoichiometric 2D layer underneath and around the QDs, via suppression of the As-P exchange. The In0.53Ga0.47As layer affects the surface diffusion leading to a modified droplet crystallization process, where unexpectedly the size of the resulting QDs is found to be inversely proportional to the indium supply. Bright single dot emission is detected via micro-photoluminescence at low temperature, ranging from 1440 to 1600 nm, covering the technologically relevant telecom C-band. Transmission electron microscopy investigations reveal buried quantum dots with truncated pyramid shape without defects or dislocations.

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Effect of Cap Thickness on InAs/InP Quantum Dots Grown by Droplet Epitaxy in Metal–Organic Vapor Phase Epitaxy

Sala

Godsland

Trapalis

et al. 2021

Physica Rapid Research Ltrs

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InAs quantum dots (QDs) are grown on bare InP(001) via droplet epitaxy (DE) in metal-organic vapor phase epitaxy (MOVPE). Capping layer engineering, used to control QD size and shape, is explored for DE QDs in MOVPE. The method allows for the tuning of the QD emission over a broad range of wavelengths, ranging from the O-to the L-band. The effect of varying the InP capping layer is investigated optically by macro-and micro-photoluminescence (PL, μPL) and morphologically by transmission electron microscopy (TEM). A strong 500 nm blueshift of the QD emission wavelength is observed when the capping layer is reduced from 20 to 8 nm, which is reflected by a clear size reduction of the buried QDs.

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InAs/InP Quantum Dots in etched pits by droplet epitaxy in MOVPE

Sala¹,

Na²,

Godsland³

et al. 2020

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Max Godsland

InAs/InP Quantum Dots in Etched Pits by Droplet Epitaxy in Metalorganic Vapor Phase Epitaxy

Tunable Photon Statistics Exploiting the Fano Effect in a Waveguide

Droplet epitaxy of InAs/InP quantum dots via MOVPE by using an InGaAs interlayer

Effect of Cap Thickness on InAs/InP Quantum Dots Grown by Droplet Epitaxy in Metal–Organic Vapor Phase Epitaxy

InAs/InP Quantum Dots in etched pits by droplet epitaxy in MOVPE

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