Publications

GILBERT N. LEWIS. The Conservation of Photons. Nature, (118)2981:874--875, Dec 1, 1926. [PUMA: photon] URL

Timo Gissibl, Simon Thiele, Alois Herkommer, and Harald Gießen. Two-photon direct laser writing of ultracompact multi-lens objectives. NATURE PHOTONICS, (10)8:554+, NATURE PUBLISHING GROUP, August 2016. [PUMA: laser multi-lens photon writing]

J. Kettler, M. Paul, F. Olbrich, K. Zeuner, M. Jetter, and P. Michler. Single-photon and photon pair emission from MOVPE-grown In(Ga)As quantum dots: shifting the emission wavelength from 1.0 to 1.3 µm. Appl. Phys. B, (122):48, 2016. [PUMA: dot emission photon quantum single]

S. Fischbach, A. Schlehahn, A. Thoma, N. Srocka, T. Gissibl, S. Ristok, S. Thiele, A. Kaganskiy, A. Strittmatter, T. Heindel, S. Rodt, A. Herkommer, H. Giessen, and S. Reitzenstein. Single Quantum Dot with microlens and 3D printed microobjective as integrated bright single photon source. ACS PHOTONICS, (4)6:1327-1332, 2017. [PUMA: 3D dot microlens microobjective photon quantum]

S. Seyfferle, F. Hargart, M. Jetter, E. Hu, and P. Michler. Signatures of single-photon interaction between two quantum dots located in different cavities of a weakly coupled double microdisk structure. Phys. Rev. B, (97)3:035302, American Physical Society, January 2018. [PUMA: dots microdisk photon quantum] URL

Thomas Herzog, Marc Sartison, Sascha Kolatschek, Stefan Hepp, Alexander Bommer, Christoph Pauly, Frank Mücklich, Christoph Becher, Michael Jetter, Simone Luca Portalupi, and Peter Michler. Pure single-photon emission from In(Ga)As QDs in a tunable fiber-based external mirror microcavity. Quantum science and technology, (3)32018. [PUMA: emission microcavity photon]

M. Mueller, H. Vural, C. Schneider, A. Rastelli, O. G. Schmidt, S. Hoefling, and P. Michler. Quantum-Dot Single-Photon Sources for Entanglement Enhanced Interferometry. Phys. Rev. Lett., (118)25:257402, American Physical Society, June 2017. [PUMA: dots photon quantum] URL

Fabian Olbrich, Jonathan Höschele, Markus Müller, Jan Kettler, Simone Luca Portalupi, Matthias Paul, Michael Jetter, and Peter Michler. Polarization-entangled photons from an InGaAs-based quantum dot emitting in the telecom C-band. Applied Physics Letters, (111)September 2017. [PUMA: Photon dot quantum]

Jonas H. Weber, Jan Kettler, Hüseyin Vural, Markus Müller, Julian Maisch, Michael Jetter, Simone L. Portalupi, and Peter Michler. Overcoming correlation fluctuations in two-photon interference experiments with differently bright and independently blinking remote quantum emitters. Phys. Rev. B, (97)19:195414, American Physical Society, May 2018. [PUMA: emitter photon quantum interference] URL

Benjamin Kambs, Jan Kettler, Matthias Bock, Jonas Nils Becker, Carsten Arend, Andreas Lenhard, Simone Luca Portalupi, Michael Jetter, Peter Michler, and Christoph Becher. Low-noise quantum frequency down-conversion of indistinguishable photons. OPTICS EXPRESS, (24)19:22250-22260, OPTICAL SOC AMER, September 2016. [PUMA: frequency photon quantum]

Maximilian Prilmueller, Tobias Huber, Markus Mueller, Peter Michler, Gregor Weihs, and Ana Predojevicć\fi. Hyperentanglement of Photons Emitted by a Quantum Dot. Phys. Rev. Lett., (121)11:110503, American Physical Society, September 2018. [PUMA: Photon dot quanum] URL

Mario Schwartz, Ulrich Rengstl, Thomas Herzog, Matthias Paul, Jan Kettler, Simone Luca Portalupi, Michael Jetter, and Peter Michler. Generation, guiding and splitting of triggered single photons from a resonantly excited quantum dot in a photonic circuit. OPTICS EXPRESS, (24)3:3089-3094, OPTICAL SOC AMER, February 2016. [PUMA: circuit dot photon quantum single]

Mario Schwartz, Ekkehart Schmidt, Ulrich Rengstl, Florian Hornung, Stefan Hepp, Simone L. Portalupi, Konstantin llin, Michael Jetter, Michael Siegel, and Peter Michler. Fully On-Chip Single-Photon Hanbury-Brown and Twiss Experiment on a Monolithic Semiconductor–Superconductor Platform. Nano Lett., (2018)18-11:6892, 2018. [PUMA: handbury-brown on-chip photon]

B. Gompf, R. Günther, G. Nick, R. Pecha, and W. Eisenmenger. Resolving Sonoluminescence Pulse Width with Time-Correlated Single Photon Counting. Phys Rev. Lett., (79)7:1405, 1997. [PUMA: counting photon pulse width]