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Publikationen

2018

A stand-alone fiber-coupled single-photon source

Schlehahn, A., Fischbach, S., Schmidt, R., Kaganskiy, A., Strittmatter, A., Rodt, S., Heindel, T. and Reitzenstein, S.

Scientific Reports 8, 1340 (2018).

ArXiv e-prints 1703.10536.

Press Release: http://rdcu.be/FgwW

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Enhancing the photon-extraction efficiency of site-controlled quantum dots by deterministically fabricated microlenses

Kaganskiy, A., Fischbach, S., Strittmatter, A., Rodt, S., Heindel, T. and Reitzenstein, S.

Optics Communications 413, 162–166 (2018).

ArXiv e-prints 1708.03512.

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Micropillars with a controlled number of site-controlled quantum dots

Kaganskiy, A., Gericke, F., Heuser, T., Heindel, T., Porte, X. and Reitzenstein, S.

Applied Physics Letters 112, 071101 (2018).

ArXiv e-prints 1711.09235.

Featured Article & Selected for Cover Page

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A quantum optical study of thresholdless lasing features in high-β nitride nanobeam cavities

Jagsch, S. T., Triviño, N. V., Lohof, F., Callsen, G., Kalinowski, S., Rousseau, I. M., Barzel, R., Carlin, J.-F., Jahnke, F., Butté, R., Gies, C., Hoffmann, A., Grandjean, N. and Reitzenstein, S.

Nature Communications 9, 564 (2018).

ArXiv e-prints 1603.06447.

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Controlling the gain contribution of background emitters in few-quantum-dot microlasers

Gericke, F., Segnon, M., Helversen, M. v., Hopfmann, C., Heindel, T., Schneider, C., Höfling, S., Kamp, M., Musiał, A., Porte, X., Gies, C. and Reitzenstein, S.

New Journal of Physics 20, 023036 (2018).

ArXiv e-prints 1704.03902.

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2017

Triggered high-purity telecom-wavelength single-photon generation from p-shell-driven InGaAs/GaAs quantum dot

Dusanowski, Ł., Holewa, P., Marynski, A., Musiał, A., Heuser, T., Srocka, N., Quandt, D., Strittmatter, A., Rodt, S., Misiewicz, J., Reitzenstein, S. and Sęk, G.

Opt. Express 25, 31122–31129 (2017).

Selected for an Editor´s Pick

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Accessing the dark exciton spin in deterministic quantum-dot microlenses

Heindel, T., Thoma, A., Schwartz, I., Schmidgall, E. R., Gantz, L., Cogan, D., Strauß, M., Schnauber, P., Gschrey, M., Schulze, J.-H., Strittmatter, A., Rodt, S., Gershoni, D. and Reitzenstein, S.

APL Photonics 2, 121303 (2017).

ArXiv e-prints 1706.05164.

Featured Headliner | Press Release: https://publishing.aip.org/publishing/journal-highlights/using-dark-side-excitons-quantum-computing

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Correlations of cascaded photons: An analytical study in the two-photon Mollow regime

Carmele, A., Bounouar, S., Strauß, M., Reitzenstein, S. and Knorr, A.

ArXiv e-prints , 1710.03031 (2017).

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Strong light-matter coupling in the presence of lasing

Gies, C., Gericke, F., Gartner, P., Holzinger, S., Hopfmann, C., Heindel, T., Wolters, J., Schneider, C., Florian, M., Jahnke, F., Höfling, S., Kamp, M. and Reitzenstein, S.

Phys. Rev. A 96, 023806 (2017).

ArXiv e-prints 1606.05591.

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Efficient single-photon source based on a deterministically fabricated single quantum dot - microstructure with backside gold mirror

Fischbach, S., Kaganskiy, A., Tauscher, E. B. Y., Gericke, F., Thoma, A., Schmidt, R., Strittmatter, A., Heindel, T., Rodt, S. and Reitzenstein, S.

Applied Physics Letters 111, 011106 (2017).

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Path-Controlled Time Reordering of Paired Photons in a Dressed Three-Level Cascade

Bounouar, S., Strauß, M., Carmele, A., Schnauber, P., Thoma, A., Gschrey, M., Schulze, J.-H., Strittmatter, A., Rodt, S., Knorr, A. and Reitzenstein, S.

Phys. Rev. Lett. 118, 233601 (2017).

ArXiv e-prints 1610.08268.

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Pump-Power-Driven Mode Switching in a Microcavity Device and Its Relation to Bose-Einstein Condensation

Leymann, H. A. M., Vorberg, D., Lettau, T., Hopfmann, C., Schneider, C., Kamp, M., Höfling, S., Ketzmerick, R., Wiersig, J., Reitzenstein, S. and Eckardt, A.

Phys. Rev. X 7, 021045 (2017).

ArXiv e-prints 1612.04312.

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On-chip optoelectronic feedback in a micropillar laser-detector assembly

Munnelly, P., Lingnau, B., Karow, M. M., Heindel, T., Kamp, M., Höfling, S., Lüdge, K., Schneider, C. and Reitzenstein, S.

Optica 4, 303–306 (2017).

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Hybrid microcavity for superminiature single quantum dot based emitters

Gaisler, V. A., Derebezov, I. A., Gaisler, A. V., Dmitriev, D. V., Toropov, A. I., Fischbach, S., Schlehahn, A., Kaganskiy, A., Heindel, T., Bounouar, S., Rodt, S. and Reitzenstein, S.

Optoelectronics, Instrumentation and Data Processing 53, 178–183 (2017).

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Emission from quantum-dot high-beta microcavities: transition from spontaneous emission to lasing and the effects of superradiant emitter coupling

Kreinberg, S., Chow, W. W., Wolters, J., Schneider, C., Gies, C., Jahnke, F., Höfling, S., Kamp, M. and Reitzenstein, S.

Light: Science & Applications , e17030 (2017).

ArXiv e-prints 1610.04129.

"Unveiling the physics of microcavity lasers": https://www.nature.com/articles/lsa201791

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Two-photon interference from remote deterministic quantum dot microlenses

Thoma, A., Schnauber, P., Böhm, J., Gschrey, M., Schulze, J.-H., Strittmatter, A., Rodt, S., Heindel, T. and Reitzenstein, S.

Applied Physics Letters 110, 011104 (2017).

ArXiv e-prints 1611.06859.

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Transition from Jaynes-Cummings to Autler-Townes ladder in a quantum dot-microcavity system

Hopfmann, C., Carmele, A., Musiał, A., Schneider, C., Kamp, M., Höfling, S., Knorr, A. and Reitzenstein, S.

Phys. Rev. B 95, 035302 (2017).

ArXiv e-prints 1609.03462.

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Resonance fluorescence of a site-controlled quantum dot realized by the buried-stressor growth technique

Strauß, M., Kaganskiy, A., Voigt, R., Schnauber, P., Schulze, J.-H., Rodt, S., Strittmatter, A. and Reitzenstein, S.

Applied Physics Letters 110, 111101 (2017).

ArXiv e-prints 1612.08063.

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A bright triggered twin-photon source in the solid state

Heindel, T., Thoma, A., Helversen, M. v., Schmidt, M., Schlehahn, A., Gschrey, M., Schnauber, P., Schulze, J.-H., Strittmatter, A., Beyer, J., Rodt, S., Carmele, A., Knorr, A. and Reitzenstein, S.

Nature Communications 8, 14870 (2017).

ArXiv e-prints 1608.02768.

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Electrically Tunable Single-Photon Source Triggered by a Monolithically Integrated Quantum Dot Microlaser

Munnelly, P., Heindel, T., Thoma, A., Kamp, M., Höfling, S., Schneider, C. and Reitzenstein, S.

ACS Photonics 4, 790 (2017).

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Single Quantum Dot with Microlens and 3D-Printed Micro-objective as Integrated Bright Single-Photon Source

Fischbach, S., Schlehahn, A., Thoma, A., Srocka, N., Gissibl, T., Ristok, S., Thiele, S., Kaganskiy, A., Strittmatter, A., Heindel, T., Rodt, S., Herkommer, A., Giessen, H. and Reitzenstein, S.

ACS Photonics 4, 1327-1332 (2017).

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2016

Cavity assisted emission of single, paired and heralded photons from a single quantum dot device

Kuhn, S. C., Knorr, A., Reitzenstein, S. and Richter, M.

Opt. Express 24, 25446–25461 (2016).

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Injection Locking of Quantum-Dot Microlasers Operating in the Few-Photon Regime

Schlottmann, E., Holzinger, S., Lingnau, B., Lüdge, K., Schneider, C., Kamp, M., Höfling, S., Wolters, J. and Reitzenstein, S.

Phys. Rev. Applied 6, 044023 (2016).

ArXiv e-prints 1604.02817.

Physical Review Applied Editors' Suggestion (October 2016)

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Photon-statistics excitation spectroscopy of a single two-level system

Strauß, M., Placke, M., Kreinberg, S., Schneider, C., Kamp, M., Höfling, S., Wolters, J. and Reitzenstein, S.

Phys. Rev. B 93, 241306(R) (2016).

ArXiv e-prints 1601.05234.

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On-chip light detection using monolithically integrated quantum dot micropillars

Karow, M. M., Munnelly, P., Heindel, T., Kamp, M., Höfling, S., Schneider, C. and Reitzenstein, S.

Applied Physics Letters 108, 081110 (2016).

APL Editor's Pick by Shanhui Fan (week of Feb 28 2016)

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

Thoma, A., Schnauber, P., Gschrey, M., Seifried, M., Wolters, J., Schulze, J.-H., Strittmatter, A., Rodt, S., Carmele, A., Knorr, A., Heindel, T. and Reitzenstein, S.

Phys. Rev. Lett. 116, 033601 (2016).

ArXiv e-prints 1507.05900.

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Controlling the Biexciton-Exciton Cascade Kinetics in a Quantum Dot via Coupling to a Microcavity Optical Mode

Sek, G., Krizhanovskii, D., Kulakovskii, V. D., Reitzenstein, S. and Kamp, M.

Acta. Phys. Pol. A 129, A-44 (2016).

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Generating single photons at gigahertz modulation-speed using electrically controlled quantum dot microlenses

Schlehahn, A., Schmidt, R., Hopfmann, C., Schulze, J.-H., Strittmatter, A., Heindel, T., Gantz, L., Schmidgall, E. R., Gershoni, D. and Reitzenstein, S.

Applied Physics Letters 108, 021104 (2016).

ArXiv e-prints 1510.07314.

Featured in Nature Photonics | Research Highlights: Nature Photonics 10, 145 (2016) (doi:10.1038/nphoton.2016.33) Springer-Nature OutstandingPoster Award at the 9th International Conference on Quantum Dots (QD2016) sponsored by the Nature Publishing Group

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Quantum dot micropillar cavities with quality factors exceeding 250,000

Schneider, C., Gold, P., Reitzenstein, S., Höfling, S. and Kamp, M.

Applied Physics B 122, 1-6 (2016).

ArXiv e-prints 1510.05447.

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Probing the carrier transfer processes in a self-assembled system with In0.3Ga0.7As/GaAs quantum dots by photoluminescence excitation spectroscopy

Podemski, P., Pieczarka, M., Marynski, A., Misiewicz, J., Löffler, A., Höfling, S., Reithmaier, J. P., Reitzenstein, S. and Sek, G.

Superlattices and Microstructures 93, 214 - 220 (2016).

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