Exploring Dephasing of a Solid-State Quantum Emitter via Time- and Temperature- Dependent Hong-Ou-Mandel Experiments

Exploring Dephasing of a Solid-State Quantum Emitter via Time- and Temperature- Dependent Hong-Ou-Mandel Experiments

We probe the indistinguishability of photons emitted by a semiconductor quantum dot (QD) via time- and temperature- dependent two-photon interference (TPI) experiments. An increase in temporal-separation between consecutive photon emission events, reveals a decrease in TPI visibility on a nanosecond...

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Veröffentlicht in:arXiv.org 2015-12
Hauptverfasser: Thoma, A, Schnauber, P, Gschrey, M, Seifried, M, Wolters, J, J -H Schulze, Strittmatter, A, Rodt, S, Carmele, A, Knorr, A, Heindel, T, Reitzenstein, S
Format: Artikel
Sprache:eng
Schlagworte:
Emitters
Experiments
Markov processes
Photon emission
Photons
Physics - Mesoscale and Nanoscale Physics
Physics - Quantum Physics
Quantum dots
Temperature dependence
Time dependence
Variation
Visibility
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Beschreibung
Zusammenfassung:We probe the indistinguishability of photons emitted by a semiconductor quantum dot (QD) via time- and temperature- dependent two-photon interference (TPI) experiments. An increase in temporal-separation between consecutive photon emission events, reveals a decrease in TPI visibility on a nanosecond timescale, theoretically described by a non-Markovian noise process in agreement with fluctuating charge-traps in the QD's vicinity. Phonon-induced pure dephasing results in a decrease in TPI visibility from \((96\pm4)\,\)\% at 10\,K to a vanishing visibility at 40\,K. In contrast to Michelson-type measurements, our experiments provide direct access to the time-dependent coherence of a quantum emitter at a nanosecond timescale.
ISSN:2331-8422
DOI:10.48550/arxiv.1507.05900