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Puplikationen in Fachjournalen

A

M. Gschrey, F. Gericke, A. Schüßler, R. Schmidt, J.-H. Schulze, T. Heindel, S. Rodt, A. Strittmatter, and S. Reitzenstein: In situ electron-beam lithography of deterministic single-quantum-dot mesa-structures using low-temperature cathodoluminescence spectroscopy, Applied Physics Letters 102, 251113 (2013).


M. M. Karow, P. Munnelly, T. Heindel, M. Kamp, S. Höfling, C. Schneider, and S. Reitzenstein: On-chip light detection using monolithically integrated quantum dot micropillars, Applied Physics Letters 108, 081110 (2016).

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S. Fischbach, A. Kaganskiy, E. B. Yarar Tauscher, F. Gericke, A. Thoma, R. Schmidt, A. Strittmatter, T. Heindel, S. Rodt, and S. Reitzenstein: Efficient single-photon source based on a deterministically fabricated single quantum dot - microstructure with backside gold mirror, Applied Physics Letters 111, 011106 (2017).

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S. Reitzenstein, T. Heindel, C. Kistner, A. Rahimi-Iman, C. Schneider, S. Höfling, and A. Forchel: Low threshold electrically pumped quantum dot-micropillar lasers, Applied Physics Letters 93, 061104 (2008).

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T. Heindel, C. Schneider, M. Lermer, S. H. Kwon, T. Braun, S. Reitzenstein, S. Höfling, M. Kamp, and A. Forchel: Electrically driven quantum dot-micropillar single photon source with 34% overall efficiency, Applied Physics Letters 96, 011107 (2010).


W. Unrau, D. Quandt, J.-H. Schulze, T. Heindel, T. D. Germann, O. Hitzemann, A. Strittmatter, S. Reitzenstein, U. W. Pohl, and D. Bimberg: Electrically driven single photon source based on a site-controlled quantum dot with self-aligned current injection, Applied Physics Letters 101, 211119 (2012).

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N. Srocka, P. Mrowiński, J. Große, M. von Helversen, T. Heindel, S. Rodt, S. Reitzenstein: Deterministically fabricated quantum dot single-photon source emitting indistinguishable photons in the telecom O-band, Applied Physics Letters 116, 231104 (2020).

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I

P. Munnelly, T. Heindel, M. M. Karow, S. Höfling, M. Kamp, C. Schneider, and S. Reitzenstein: A Pulsed Nonclassical Light Source Driven by an Integrated Electrically Triggered Quantum Dot Microlaser, IEEE Journal of Selected Topics in Quantum Electronics 21, 681–689 (2015).

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S. Reitzenstein, T. Heindel, C. Kistner, F. Albert, T. Braun, C. Hopfmann, P. Mrowinski, M. Lermer, C. Schneider, S. Höfling, M. Kamp, and A. Forchel: Electrically Driven Quantum Dot Micropillar Light Sources, IEEE Journal of Selected Topics in Quantum Electronics 17, 1670-1680 (2011).


J

M. Schmidt, M. von Helversen, M. López, F. Gericke, E. Schlottmann, T. Heindel, S. Kück, S. Reitzenstein, and J. Beyer: Photon-Number-Resolving Transition-Edge Sensors for the Metrology of Quantum Light Sources, Journal of Low Temperature Physics 193, 1243 (2018).

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S. Rodt, S. Reitzenstein and T. Heindel: Deterministically fabricated solid-state quantum-light sources, Journal of Physics: Condensed Matter 32, 153003 (2020).

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N

P. Schnauber, J. Schall, S. Bounouar, T. Höhne, S.-I. Park, G.-H. Ryu, T. Heindel, S. Burger, J.-D. Song, S. Rodt, and S. Reitzenstein: Deterministic Integration of Quantum Dots into on-Chip Multimode Interference Beamsplitters Using in Situ Electron Beam Lithography, Nano Lett. 18, 2336–2342 (2018).

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C. Schneider, A. Huggenberger, T. Sünner, T. Heindel, M. Strauss, S. Göpfert, P. Weinmann, S. Reitzenstein, L. Worschech, M. Kamp, S. Höfling, and A. Forchel: Single site-controlled In(Ga)As/GaAs quantum dots: growth, properties and device integration, Nanotechnology 20, 434012 (2009).

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M. Gschrey, A. Thoma, P. Schnauber, M. Seifried, R. Schmidt, B. Wohlfeil, L. Krüger, J.-H. Schulze, T. Heindel, S. Burger, F. Schmidt, A. Strittmatter, S. Rodt, and S. Reitzenstein: Highly indistinguishable photons from deterministic quantum-dot microlenses utilizing three-dimensional in situ electron-beam lithography, Nat. Commun. 6, 7662 (2015).

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T. Heindel, A. Thoma, M. von Helversen, M. Schmidt, A. Schlehahn, M. Gschrey, P. Schnauber, J.-H. Schulze, A. Strittmatter, J. Beyer, S. Rodt, A. Carmele, A. Knorr, and S. Reitzenstein: A bright triggered twin-photon source in the solid state, Nature Communications 8, 14870 (2017).

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