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Publikationen

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Exploring the Photon-Number Distribution of Bimodal Microlasers with a Transition Edge Sensor

Schlottmann, E., von Helversen, M., Leymann, H. A. M., Lettau, T., Krüger, F., Schmidt, M., Schneider, C., Kamp, M., Höfling, S., Beyer, J., Wiersig, J. and Reitzenstein, S.

Phys. Rev. Applied 9, 064030 (2018).

ArXiv e-prints 1709.04312.

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Stochastic polarization switching induced by optical injection in bimodal quantum-dot micropillar lasers

Schlottmann, E., Schicke, D., Krüger, F., Lingnau, B., Schneider, C., Höfling, S., Lüdge, K., Porte, X. and Reitzenstein, S.

Opt. Express 27, 28816–28831 (2019).

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All-optical depletion of dark excitons from a semiconductor quantum dot

Schmidgall, E. R., Schwartz, I., Cogan, D., Gantz, L., Heindel, T., Reitzenstein, S. and Gershoni, D.

Applied Physics Letters 106, 193101 (2015).

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Photon-Number-Resolving Transition-Edge Sensors for the Metrology of Quantum Light Sources

Schmidt, M., von Helversen, M., López, M., Gericke, F., Schlottmann, E., Heindel, T., Kück, S., Reitzenstein, S. and Beyer, J.

Journal of Low Temperature Physics , (2018).

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Deterministically fabricated spectrally-tunable quantum dot based single-photon source

Schmidt, M., Helversen, M. V., Fischbach, S., Kaganskiy, A., Schmidt, R., Schliwa, A., Heindel, T., Rodt, S. and Reitzenstein, S.

Opt. Mater. Express 10, 76–87 (2020).

ArXiv e-prints 1805.10623.

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Bimodal behavior of microlasers investigated with a two-channel photon-number-resolving transition-edge sensor system

Schmidt, M., Grothe, I. H., Neumeier, S., Bremer, L., von Helversen, M., Zent, W., Melcher, B., Beyer, J., Schneider, C., Höfling, S., Wiersig, J. and Reitzenstein, S.

Phys. Rev. Research 3, 013263 (2021).

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Bright Single-Photon Sources Based on Anti-Reflection Coated Deterministic Quantum Dot Microlenses

Schnauber, P., Thoma, A., Heine, C. V., Schlehahn, A., Gantz, L., Gschrey, M., Schmidt, R., Hopfmann, C., Wohlfeil, B., Schulze, J.-H., Strittmatter, A., Heindel, T., Rodt, S., Woggon, U., Gershoni, D. and Reitzenstein, S.

Technologies 4, 1 (2015).

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Using low-contrast negative-tone PMMA at cryogenic temperatures for 3D electron beam lithography

Schnauber, P., Schmidt, R., Kaganskiy, A., Heuser, T., Gschrey, M., Rodt, S. and Reitzenstein, S.

Nanotechnology 27, 195301 (2016).

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Deterministic Integration of Quantum Dots into on-Chip Multimode Interference Beamsplitters Using in Situ Electron Beam Lithography

Schnauber, P., Schall, J., Bounouar, S., Höhne, T., Park, S.-I., Ryu, G.-H., Heindel, T., Burger, S., Song, J.-D., Rodt, S. and Reitzenstein, S.

Nano Letters 18, 2336-2342 (2018).

ArXiv e-prints 1712.03837.

PMID: 29557665

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Indistinguishable Photons from Deterministically Integrated Single Quantum Dots in Heterogeneous GaAs/Si3N4 Quantum Photonic Circuits

Schnauber, P., Singh, A., Schall, J., Park, S. I., Song, J. D., Rodt, S., Srinivasan, K., Reitzenstein, S. and Davanco, M.

Nano Lett. , (2019).

ArXiv e-prints 1905.12030.

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Spectral control of deterministically fabricated quantum dot waveguide systems using the quantum confined Stark effect

Schnauber, P., Große, J., Kaganskiy, A., Ott, M., Anikin, P., Schmidt, R., Rodt, S. and Reitzenstein, S.

APL Photonics 6, 050801 (2021).

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Microcavity enhanced single photon emission from an electrically driven site-controlled quantum dot

Schneider, C., Heindel, T., Huggenberger, A., Niederstrasser, T. A., Reitzenstein, S., Forchel, A., Höfling, S. and Kamp, M.

Applied Physics Letters 100, 091108 (2012).

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AlGaInAs quantum dot solar cells: tailoring quantum dots for intermediate band formation

Schneider, C., Kremling, S., Tarakina, N. V., Braun, T., Adams, M., Lermer, M., Reitzenstein, S., Worschech, L., Kamp, M., Höfling, S. and Forchel, A.

Semiconductor Science and Technology 27, 032002 (2012).

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In(Ga)As/GaAs site-controlled quantum dots with tailored morphology and high optical quality

Schneider, C., Huggenberger, A., Gschrey, M., Gold, P., Rodt, S., Forchel, A., Reitzenstein, S., Höfling, S. and Kamp, M.

Physica Status Solidi A-applications and Materials Science 209, 2379–2386 (2012).

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An electrically pumped polariton laser

Schneider, C., Rahimi-Iman, A., Kim, N. Y., Fischer, J., Savenko, I. G., Amthor, M., Lermer, M., Wolf, A., Worschech, L., Kulakovskii, V. D., Shelykh, I. A., Kamp, M., Reitzenstein, S., Forchel, A., Yamamoto, Y. and Höfling, S.

Nature 497, 348–352 (2013).

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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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Numerical optimization of the extraction efficiency of a quantum-dot based single-photon emitter into a single-mode fiber

Schneider, P.-I., Srocka, N., Rodt, S., Zschiedrich, L., Reitzenstein, S. and Burger, S.

Opt. Express 26, 8479–8492 (2018).

ArXiv e-prints 1803.03438.

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Lithographic alignment to site-controlled quantum dots for device integration

Schneider, C., Strauss, M., Sunner, T., Huggenberger, A., Wiener, D., Reitzenstein, S., Kamp, M., Höfling, S. and Forchel, A.

Applied Physics Letters 92, 183101 (2008).

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Single photon emission from a site-controlled quantum dot-micropillar cavity system

Schneider, C., Heindel, T., Huggenberger, A., Weinmann, P., Kistner, C., Kamp, M., Reitzenstein, S., Höfling, S. and Forchel, A.

Applied Physics Letters 94, 111111 (2009).

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Single site-controlled In(Ga)As/GaAs quantum dots: growth, properties and device integration

Schneider, C., Huggenberger, A., Sunner, T., Heindel, T., Strauss, M., Gopfert, S., Weinmann, P., Reitzenstein, S., Worschech, L., Kamp, M., Höfling, S. and Forchel, A.

Nanotechnology 20, 434012 (2009).

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Optically pumped lasing from a single pillar microcavity with InGaAs/GaAs quantum well potential fluctuation quantum dots

Seak, G., Podemski, P., Misiewicz, J., Reitzenstein, S., Reithmaier, J. P. and Forchel, A.

Journal of Applied Physics 105, 053513 (2009).

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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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Investigation of strong coupling between single quantum dot excitons and single photons in pillar microcavities

Sek, G., Hofmann, C., Reithmaier, J. P., Loffler, A., Reitzenstein, S., Kamp, M., Keldysh, L. V., Kulakovskii, V. D., Reinecke, T. L. and Forchel, A.

Physica E-low-dimensional Systems & Nanostructures 32, 471–475 (2006).

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Photonic neuromorphic computing using vertical cavity semiconductor lasers

Skalli, A., Robertson, J., Owen-Newns, D., Hejda, M., Porte, X., Reitzenstein, S., Hurtado, A. and Brunner, D.

arXiv e-prints , (2021).

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Computational metrics and parameters of an injection-locked large area semiconductor laser for neural network computing

Skalli, A., Porte, X., Haghighi, N., Reitzenstein, S., Lott, J. A. and Brunner, D.

arXiv e-prints , (2021).

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Enhanced photon-extraction efficiency from InGaAs/GaAs quantum dots in deterministic photonic structures at 1.3 μm fabricated by in-situ electron-beam lithography

Srocka, N., Musiał, A., Schneider, P.-I., Mrowiński, P., Holewa, P., Burger, S., Quandt, D., Strittmatter, A., Rodt, S., Reitzenstein, S. and Sęk, G.

AIP Advances 8, 085205 (2018).

ArXiv e-prints 1805.00624.

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Deterministically fabricated quantum dot single-photon source emitting indistinguishable photons in the telecom O-band

Srocka, N., Mrowiński, P., Große, J., von Helversen, M., Heindel, T., Rodt, S. and Reitzenstein, S.

Applied Physics Letters 116, 231104 (2020).

ArXiv e-prints 2004.04584v1.

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Deterministically fabricated strain-tunable quantum dot single-photon sources emitting in the telecom O-band

Srocka, N., Mrowiński, P., Große, J., Schmidt, M., Rodt, S. and Reitzenstein, S.

Applied Physics Letters 117, 224001 (2020).

ArXiv e-prints 2009.12543.

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On-Chip Quantum Optics with Quantum Dot Microcavities

Stock, E., Albert, F., Hopfmann, C., Lermer, M., Schneider, C., Höfling, S., Forchel, A., Kamp, M. and Reitzenstein, S.

Advanced Materials 25, 707–710 (2013).

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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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