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Approaching transform-limited photons from nanowire quantum dots using excitation above the band gap

Patrick Laferrière, Aria Yin, Edith Yeung, Leila Kusmic, Marek Korkusiński, Payman Rasekh, David B. Northeast, S. Haffouz, J. Lapointe, Philip J. Poole, Robin L. Williams, Dan Dalacu

2023Physical review. B./Physical review. B21 citationsDOI

Abstract

We demonstrate that, even when employing above band gap excitation, photons emitted from semiconductor quantum dots can have linewidths that approach their transform-limited values. This is accomplished by using quantum dots embedded within bottom-up photonic nanowires, an approach which mitigates several potential mechanisms that can result in linewidth broadening: (i) Only a single quantum dot is present in each device, (ii) dot nucleation proceeds without the formation of a wetting layer, and (iii) the sidewalls of the photonic nanowire are comprised not of etched facets, but of epitaxially grown crystal planes. Using these structures we achieve linewidths of $2\ifmmode\times\else\texttimes\fi{}$ the transform limit for above band gap excitation. We also demonstrate a highly nonlinear dependence of the linewidth on both excitation power and temperature which can be described by an independent boson model that considers both deformation and piezoelectric exciton-phonon coupling. We find that for sufficiently low excitation powers and temperatures, the observed excess broadening is not dominated by phonon dephasing, a surprising result considering the high phonon occupation that occurs with above band gap excitation.

Topics & Concepts

Quantum dotCondensed matter physicsDephasingExcitationLaser linewidthNanowireWetting layerBand gapPhotonPhysicsPhotonic crystalPhononMaterials scienceOptoelectronicsLaserOpticsQuantum mechanicsSemiconductor Quantum Structures and DevicesQuantum and electron transport phenomenaPhotonic and Optical Devices
Approaching transform-limited photons from nanowire quantum dots using excitation above the band gap | Litcius