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THU: Thursday Contributed Sessions

THU 13: Poster Session: Applications

THU 13.83: Poster

Donnerstag, 11. September 2025, 16:30–18:30, ZHG Foyer 1. OG

Two-color resonant excitation to study the Auger effect in a single photon emitter — •Nico Schwarz¹, Fabio Rimek¹, Hendrik Mannel¹, Marcel Zöllner¹, Britta Maib¹, Arne Ludwig², Andreas D. Wieck², Axel Lorke¹, and Martin Geller¹ — ¹Faculty of Physics and CENIDE, University Duisburg-Essen, Germany — ²Chair of Applied Solid State Physics, Ruhr-University Bochum, Germany

In solid state physics, the quantum dot (QD) as a single photon emitter is an ideal system to study quantum phenomena like the Auger effect in a confined nanostructure. We used two-color, time resolved resonance fluorescence spectroscopy with a high spectral resolution to record the charge carrier dynamics in a single quantum dot and differentiate between the different recombination paths: Auger, spin-flip and spin-flip Raman recombination [1]. In high-photon-yield, low-dephasing single-photon emitters, the Auger effect should be supressed, because it is an electron-electron scattering effect leading to a non-radiative recombination of, e.g., the charged exciton [2]. We observe an unexpected behaviour of the Auger recombination rate, which shows an oscillatory behaviour up to 4 Tesla, before decreasing by a factor of approx. 3 in fields up to 8 Tesla. For the spin-flip and spin-flip-Raman recombination rates we observe a power dependency for lower magnetic fields around 1 Tesla. These new findings may be the starting point for further theoretical and experimental studies to unterstand or even supress this scattering effect.
[1] H. Mannel et al., JAP 134, 154304 (2023).
[2] P. Lochner et al., Nano Lett. 20, 1631-1636 (2020).

Keywords: Self-Assembled; Quantum dot; Auger Recombination Rate; Magnetic Field-Dependence