Single dot photoluminescence excitation spectroscopy in the telecommunication spectral range
Pawe{\l} Podemski, Aleksander Mary\'nski, Pawe{\l} Wyborski, Artem, Bercha, Witold Trzeciakowski, Grzegorz S\k{e}k

TL;DR
This paper introduces a method for single dot photoluminescence excitation spectroscopy in the telecom spectral range, enabling analysis of quantum dots emitting at 1.3 and 1.55 μm, crucial for quantum photonics applications.
Contribution
It presents a novel approach to perform photoluminescence excitation spectroscopy on single quantum dots in the telecom spectral range, expanding the applicability of this technique.
Findings
Successful spectroscopy on dots emitting at 1.3 μm
Successful spectroscopy on dots emitting at 1.55 μm
Addressed spectral filtering and excitation source issues
Abstract
Single dot photoluminescence excitation spectroscopy provides an insight into energy structure of individual quantum dots, energy transfer processes within and between the dots and their surroundings. The access to single dot energy structure is vital for further development of telecom-based quantum emitters, like single photon sources or entangled pair of photons. However, application of single dot photoluminescence excitation spectroscopy is limited mainly to dots emitting below 1 m, while nanostructures optically active in the telecommunication windows of 1.3 and 1.55 m are of particular interest, as they correspond to the desirable wavelengths in nanophotonic applications. This report presents an approach to photoluminescence excitation spectroscopy covering this application-relevant spectral range on single dot level. Experimental details are discussed, including issues…
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