Surface acoustic wave modulation of single photon emission from GaN/InGaN nanowire quantum dots
S. Lazic, E. Chernysheva, A. Hern\'andez-M\'inguez, P.V. Santos and, H.P. van der Meulen

TL;DR
This paper demonstrates dynamic, in-situ control of single photon emission from GaN/InGaN nanowire quantum dots using surface acoustic waves, enabling spectral tuning and polarization control for quantum information applications.
Contribution
It introduces a novel method of modulating quantum dot emission properties via surface acoustic waves on nanowires, achieving spectral tuning and polarization control at high frequencies.
Findings
Spectral fine-tuning within ~1.5 meV at ~330 MHz acoustic frequency.
Observation of anti-bunching indicating single photon emission.
SAW-induced modulation affects charge population and polarization.
Abstract
On-chip quantum information processing requires controllable quantum light sources that can be operated on-demand at high-speeds and with the possibility of in-situ control of the photon emission wavelength and its optical polarization properties. Here, we report on the dynamic control of the optical emission from core-shell GaN/InGaN nanowire (NW) heterostructures using radio frequency surface acoustic waves (SAWs). The SAWs are excited on the surface of a piezoelectric lithium niobate crystal equipped with a SAW delay line onto which the NWs were mechanically transferred. Luminescent quantum dot (QD)-like exciton localization centers induced by compositional fluctuations within the InGaN nanoshell were identified using stroboscopic micro-photoluminescence (micro-PL) spectroscopy. They exhibit narrow and almost fully linearly polarized emission lines in the micro-PL spectra and a…
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