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Publikationen

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2021

Quantum efficiency and oscillator strength of InGaAs quantum dots for single-photon sources emitting in the telecommunication O-band [13]

Große, J., Mrowiński, P., Srocka, N. and Reitzenstein, S.

Applied Physics Letters 119, 061103 (2021).

ArXiv e-prints 2106.05351.

Download Bibtex entry [14]

Absolute calibration of a single-photon avalanche detector using a bright triggered single-photon source based on an InGaAs quantum dot [15]

Georgieva, H., López, M., Hofer, H., Kanold, N., Kaganskiy, A., Rodt, S., Reitzenstein, S. and Kück, S.

Opt. Express 29, 23500–23507 (2021).

Download Bibtex entry [16]

Bright Electrically Controllable Quantum-Dot-Molecule Devices Fabricated by In Situ Electron-Beam Lithography [17]

Schall, J., Deconinck, M., Bart, N., Florian, M., von Helversen, M., Dangel, C., Schmidt, R., Bremer, L., Bopp, F., Hüllen, I., Gies, C., Reuter, D., Wieck, A. D., Rodt, S., Finley, J. J., Jahnke, F., Ludwig, A. and Reitzenstein, S.

Advanced Quantum Technologies 4, 2100002 (2021).

Download Bibtex entry [18]

Front Cover: Bright Electrically Controllable Quantum-Dot-Molecule Devices Fabricated by In Situ Electron-Beam Lithography (Adv. Quantum Technol. 6/2021) [19]

Schall, J., Deconinck, M., Bart, N., Florian, M., von Helversen, M., Dangel, C., Schmidt, R., Bremer, L., Bopp, F., Hüllen, I., Gies, C., Reuter, D., Wieck, A. D., Rodt, S., Finley, J. J., Jahnke, F., Ludwig, A. and Reitzenstein, S.

Advanced Quantum Technologies 4, 2170061 (2021).

Download Bibtex entry [20]

Physics and Applications of High-β Micro- and Nanolasers [21]

Deng, H., Lippi, G. L., Mørk, J., Wiersig, J. and Reitzenstein, S.

Advanced Optical Materials n/a, 2100415 (2021).

Download Bibtex entry [22]

Spectral control of deterministically fabricated quantum dot waveguide systems using the quantum confined Stark effect [23]

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

APL Photonics 6, 050801 (2021).

Download Bibtex entry [24]

3D printed micro-optics for quantum technology: Optimised coupling of single quantum dot emission into a single-mode fibre [25]

Sartison, M., Weber, a. K., Thiele, S., Bremer, L., Fischbach, S., Herzog, T., Kolatschek, S., Jetter, M., Reitzenstein, S., Herkommer, A., Michler, P., Portalupi, S. L., Giessen, H. and and, a.

Light: Advanced Manufacturing 2, 1–17 (2021).

Download Bibtex entry [26]

Design optimization for bright electrically-driven quantum dot single-photon sources emitting in telecom O-band [27]

Blokhin, S. A., Bobrov, M. A., Maleev, N. A., Donges, J. N., Bremer, L., Blokhin, A. A., Vasil'ev, A. P., Kuzmenkov, A. G., Kolodeznyi, E. S., Shchukin, V. A., Ledentsov, N. N., Reitzenstein, S. and Ustinov, V. M.

Opt. Express 29, 6582–6598 (2021).

Download Bibtex entry [28]

High-performance deterministic in-situ electron-beam lithography enabled by cathodoluminescence spectroscopy [29]

Rodt, S. and Reitzenstein, S.

Nano Express , (2021).

Download Bibtex entry [30]

Optical pumping of quantum dot micropillar lasers [31]

Andreoli, L., Porte, X., Heuser, T., Große, J., Moeglen-Paget, B., Furfaro, L., Reitzenstein, S. and Brunner, D.

Opt. Express 29, 9084–9097 (2021).

Download Bibtex entry [32]

Boosting energy-time entanglement using coherent time-delayed feedback [33]

Barkemeyer, K., Hohn, M., Reitzenstein, S. and Carmele, A.

arXiv e-prints , (2021).

Download Bibtex entry [34]

Bimodal behavior of microlasers investigated with a two-channel photon-number-resolving transition-edge sensor system [35]

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).

Download Bibtex entry [36]

Roadmap on Integrated Quantum Photonics [37]

Moody, G., Sorger, V. J., Juodawlkis, P. W., Loh, W., Sorace-Agaskar, C., Davanco, M., Chang, L., Bowers, J. E., Quack, N., Galland, C., Aharonovich, I., Wolff, M. A., Schuck, C., Sinclair, N., Lončar, M., Komljenovic, T., Weld, D., Mookherjea, S., Buckley, S., Radulaski, M., Reitzenstein, S., Pingault, B., Machielse, B., Mukhopadhyay, D., Akimov, A., Zheltikov, A., Agarwal, G. S., Srinivasan, K., Lu, J., Tang, H. X., Jiang, W., McKenna, T. P., Safavi-Naeini, A. H., Steinhauer, S., Elshaari, A. W., Zwiller, V., Davids, P. S., Martinez, N., Gehl, M., Chiaverini, J., Mehta, K. K., Romero, J., Lingaraju, N. B., Weiner, A. M., Peace, D., Cernansky, R., Lobino, M., Diamanti, E., Vidarte, L. T. and Camacho, R. M.

arXiv e-prints , (2021).

Download Bibtex entry [38]

Bright electrically controllable quantum-dot-molecule devices fabricated by in-situ electron-beam lithography [39]

Schall, J., Deconinck, M., Bart, N., Florian, M., Helversen, M. v., Dangel, C., Schmidt, R., Bremer, L., Bopp, F., Reuter, D., Wieck, A. D., Rodt, S., Finley, J. J., Jahnke, F., Ludwig, A. and Reitzenstein, S.

arXiv e-prints , (2021).

Download Bibtex entry [40]

Integrated nanophotonics for the development of fully functional quantum circuits based on on-demand single-photon emitters [41]

Rodt, S. and Reitzenstein, S.

APL Photonics 6, 010901 (2021).

Download Bibtex entry [42]

Intrinsic circularly-polarized exciton emission in a twisted van-der-Waals heterostructure [43]

Michl, J., Tarasenko, S. A., Lohof, F., Gies, G., Helversen, M. v., Sailus, R., Tongay, S., Taniguchi, T., Watanabe, K., Heindel, T., Reitzenstein, S., Shubina, T., Höfling, S., Antón-Solanas, C. and Schneider, C.

arXiv e-prints , (2021).

Download Bibtex entry [44]

Measuring higher-order photon correlations of faint quantum light: a short review [45]

Laiho, K., Dirmeier, T., Schmidt, M., Reitzenstein, S. and Marquardt, C.

arXiv e-prints , (2021).

Download Bibtex entry [46]

2020

Deterministically fabricated strain-tunable quantum dot single-photon sources emitting in the telecom O-band [47]

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

Applied Physics Letters 117, 224001 (2020).

ArXiv e-prints 2009.12543.

Download Bibtex entry [48]

A complete, parallel and autonomous photonic neural network in a semiconductor multimode laser [49]

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

arXiv e-prints , (2020).

Download Bibtex entry [50]

Thermal stability of emission from single InGaAs/GaAs quantum dots at the telecom O-band [51]

Holewa, P., Burakowski, M., Musiał, A., Srocka, N., Quandt, D., Strittmatter, A., Rodt, S., Reitzenstein, S. and Sęk, G.

Scientific Reports 10, (2020).

ArXiv e-prints 2010.10206.

Download Bibtex entry [52]

Design of electrically driven single photon source based on dielectric passive cavity structure at 1.3 $upmu$m [53]

Blokhin, S. A., Bobrov, M. A., Maleev, N. A., Blokhin, A. A., Vasyl'ev, A. P., Kuzmenkov, A. G., Shchukin, V. A., Ledentsov, N. N., Reitzenstein, S. and Ustinov, V. M.

Journal of Physics: Conference Series 1697, 012179 (2020).

Download Bibtex entry [54]

Thresholdless Transition to Coherent Emission at Telecom Wavelengths from Coaxial Nanolasers with Excitation Power Dependent β-Factors [55]

Kreinberg, S., Laiho, K., Lohof, F., Hayenga, W. E., Holewa, P., Gies, C., Khajavikhan, M. and Reitzenstein, S.

Laser & Photonics Reviews n/a, 2000065 (2020).

Download Bibtex entry [56]

Quantum dot single-photon emission coupled into single-mode fibers with 3D printed micro-objectives [57]

Bremer, L., Weber, K., Fischbach, S., Thiele, S., Schmidt, M., Kaganskiy, A., Rodt, S., Herkommer, A., Sartison, M., Portalupi, S. L., Michler, P., Giessen, H. and Reitzenstein, S.

APL Photonics 5, 106101 (2020).

ArXiv e-prints 2005.11198v1.

Download Bibtex entry [58]

Developing a photonic hardware platform for brain-inspired computing based on 5 x 5 VCSEL arrays [59]

Heuser, T., Pflüger, M., Fischer, I., Lott, J. A., Brunner, D. and Reitzenstein, S.

Journal of Physics: Photonics 2, 044002 (2020).

ArXiv e-prints 2006.13933v1.

Download Bibtex entry [60]

Development of site-controlled quantum dot arrays acting as scalable sources of indistinguishable photons [61]

Große, J., von Helversen, M., Koulas-Simos, A., Hermann, M. and Reitzenstein, S.

APL Photonics 5, 096107 (2020).

Download Bibtex entry [62]

Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors [63]

Georgieva, H., López, M., Hofer, H., Christinck, J., Rodiek, B., Schnauber, P., Kaganskiy, A., Heindel, T., Rodt, S., Reitzenstein, S. and Kück, S.

Metrologia 57, 055001 (2020).

Download Bibtex entry [64]

Entanglement robustness to excitonic spin precession in a quantum dot [65]

Bounouar, S., Rein, G., Barkemeyer, K., Schleibner, J., Schnauber, P., Gschrey, M., Schulze, J.-H., Strittmatter, A., Rodt, S., Knorr, A., Carmele, A. and Reitzenstein, S.

Phys. Rev. B 102, 045304 (2020).

ArXiv e-prints 2001.11833.

Download Bibtex entry [66]

Deterministically fabricated quantum dot single-photon source emitting indistinguishable photons in the telecom O-band [67]

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.

Download Bibtex entry [68]

Front Cover: Plug and Play Fiber-Coupled 73 kHz Single-Photon Source Operating in the Telecom O-Band (Adv. Quantum Technol. 6/2020) [69]

Musiał, A., Żołnacz, K., Srocka, N., Kravets, O., Große, J., Olszewski, J., Poturaj, K., Wójcik, G., Mergo, P., Dybka, K., Dyrkacz, M., Dłubek, M., Lauritsen, K., Bülter, A., Schneider, P.-I., Zschiedrich, L., Burger, S., Rodt, S., Urbańczyk, W., Sęk, G. and Reitzenstein, S.

Advanced Quantum Technologies 3, 2070061 (2020).

Download Bibtex entry [70]

Plug and Play Fiber-Coupled 73 kHz Single-Photon Source Operating in the Telecom O-Band [71]

Musiał, A., Żołnacz, K., Srocka, N., Kravets, O., Große, J., Olszewski, J., Poturaj, K., Wójcik, G., Mergo, P., Dybka, K., Dyrkacz, M., Dłubek, M., Lauritsen, K., Bülter, A., Schneider, P.-I., Zschiedrich, L., Burger, S., Rodt, S., Urbańczyk, W., Sęk, G. and Reitzenstein, S.

Advanced Quantum Technologies , 2000018 (2020).

ArXiv e-prints 1912.10351.

Download Bibtex entry [72]

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