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TU Berlin

Inhalt des Dokuments

Arbeitsgruppe Optoelektronik und Quantenbauelemente

SE image of a multi-mode interference beam splitter (MMI) with a 50:50 split ratio that was fabricated via in-situ electron-beam lithography. Inset: Calculated field distribution inside the MMI.
Lupe [1]

Technische Universität Berlin
Institut für Festkörperphysik
Eugene-Wigner-Gebäude
EW 5-3
Hardenbergstr. 36
D-10623 Berlin
Tel: +49(0)30 314 - 22001 / 28819
Fax: +49(0)30 314 - 22064
Email: reitzenstein.office@physik.tu-berlin.de [2]

Medieninformationen zu ausgewählten Highlights

  • 11.07.2022 - Gemeinsame Quantenforschung in Polen und Berlin - Cluster Optik und Photonik [3]
  • 26.01.2022 - "A Quantum Key Distribution Testbed using a Plug & Play Telecom-wavelength Single-Photon Source", T. Gao et al, Applied Physics Reviews 9, 011412 (2022) publised as AIP Scilight: "Quantum dot device provides single photons, a building block for future communication networks" [4]
  • 07.07.2021 - König Willem-Alexander und Königin Máxima der Niederlande zu Gast an der TU Berlin [5]
  • 16.04.2021 -"Developing a photonic hardware platform for brain-inspired computing based on 5 × 5 VCSEL arrays", T. Heuser et al, J. Phys. Photonics 2 044002, 2020 selected for JPhys Photonics Highlights of 2020 [6]
  • 17.11.2020 - "Quantum integrated photonic circuits" [7]
  • 25.06.2020 - "Auf dem Weg zu einer sicheren Datenübertragung" [8]
  • 10.06.2020 - Front Cover: Plug and Play Fiber-Coupled 73 kHz Single-Photon Source Operating in the Telecom O-Band (Adv. Quantum Technol. 6/2020) [9]
  • 08.06.2020 - "Deterministically fabricated quantum dot single-photon source emitting indistinguishable photons in the telecom O-band" selected as Editor's Pick [10]
  • 20.04.2020 - AIP Publishing is temporarily making content freely available to scientists and students [11]
  • 24.03.2020 - "Tools for the performance optimization of single-photon quantum key distribution" [12]
  • 30.08.2019 - "Indistinguishable Photons from Deterministically Integrated Single Quantum Dots in Heterogeneous GaAs/Si3N4 Quantum Photonic Circuits" [13]
  • 03.05.2019 - "A stand-alone fiber-coupled single-photon source" one of the top 100 read physics papers for Scientific Reports in 2018 [14]
  • 05.04.2019 - "Mutual coupling and synchronization of optically coupled quantum-dot micropillar lasers at ultra-low light levels" [15]
  • 26.03.2019 - "Micropillar lasers with site-controlled quantum dots as active medium" [16]
  • 13.03.2019 - "Wigner Time Delay Induced by a Single Quantum Dot" [17]
  • 11.09.2018 - Millionenförderung für TU-Nachwuchswissenschaftler [18]
  • 30.7.2018 - "Spezieller Detektor misst die exakte Anzahl von Photonen in einem schwachen Lichtpuls" [19]
  • 25.7.2018 - "Synopsis: Counting Photons from a Polariton Condensate" [20]
  • 20.7.2018 - "Neue Anwendungen für Mikrolaser in der Quanten-Nanophotonik" [21]
  • 16.02.2018 - Scilight on Kaganskiy et al.: Micropillars with a controlled number of site-controlled quantum dots [22]
  • 15.02.2018 - "Lasing am Limit" [23]
  • 10.02.2018 - "Schlüssel aus dem Schub" [24]
  • 26.01.2018 - Nature Photonics Research Highlight Report zu "Dark exciton study" [25]
  • 25.01.2018 - Publikation "A stand-alone fiber-coupled single-photon source" [26]
  • 16.01.2018 - Publikation "Accessing the dark exciton spin in deterministic quantum dot microlenses" [27]
  • 25.08.2017 - "Unveiling the physics of microcavity lasers" [28]
  • 03.04.2017 - Publikation "A bright triggered twin-photon source in the solid state" [29]
  • 09.03.2017 - Publikation "On-chip optoelectronic feedback in a micropillar laser-detector assembly" [30]
  • 16.07.2015 - Publikation "Highly indistinguishable photons from deterministic quantum-dot microlenses utilizing 3D in situ electron-beam lithography" [31]
  • 12.02.2014 - Verleihung des ERC Consolidator Grants der EU an Prof. Reitzenstein [32]
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