Publications
🔓 indicates open access option
2024
Dimensional Crossover in a Quantum Gas of Light (B1, B6)
🔓 Kirankumar Karkihalli Umesh, Julian Schulz, Julian Schmitt, Martin Weitz, Georg von Freymann, Frank Vewinger: Nat. Phys. (2024)
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Bose–Einstein condensation of photons in a vertical-cavity surface-emitting laser (B6)
🔓 Maciej Pieczarka, Marcin GÄ™bski, Aleksandra N. Piasecka, James A. Lott, Axel Pelster, MichaÅ‚ Wasiak & Tomasz Czyszanowski: Nat. Photon. 18, 1090–1096 (2024)Â
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Nanomechanically-induced nonequilibrium quantum phase transition to a self-organized density wave of a Bose-Einstein condensate (A2, B6)
🔓 Milan Radonjić, Leon Mixa, Axel Pelster, Michael Thorwart: Phys. Rev. Research 6, 033094 (2024)
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2023
Projection Optimization Method for Open-Dissipative Quantum Fluids and its Application to a Single Vortex in a Photon Bose-Einstein Condensate (B6)
🔓 Joshua Krauß, Marcos Alberto Gonçalves dos Santos Filho, Francisco Ednilson Alves dos Santos, Axel Pelster:  arXiv:2311.10027 (2023)
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Unravelling Interaction and Temperature Contributions in Unpolarized Trapped Fermionic Atoms in the BCS Regime (B5, B6)
🔓 Sejung Yong, Sian Barbosa, Jennifer Koch, Felix Lang, Axel Pelster, Artur Widera:  arXiv:2311.08853 (2023)
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Broadband mode division multiplexing of OAM-modes by a micro printed waveguide structure (B6)
🔓 Julian Schulz, Georg von Freymann:  arXiv:2310.08489 (2023)
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Coherence properties of the repulsive anyon-Hubbard dimer (A4, A5, B6)
🔓 Martin Bonkhoff, Simon B. Jäger, Imke Schneider, Axel Pelster, and Sebastian Eggert: Phys. Rev. B 108, 155134 (2023)
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Driven-dissipative Bose-Einstein condensation of photons in a vertical-cavity surface-emitting laser (B6)
🔓 Maciej Pieczarka, Marcin Gębski, Aleksandra N. Piasecka, James A. Lott, Axel Pelster, Michał Wasiak, Tomasz Czyszanowski: arXiv:2307.00081 (2023)
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Emergence of damped-localized excitations of the Mott state due to disorder (B5, B6)
🔓 R S Souza, A Pelster and F E A dos Santos: New J. Phys. 25 063015 (2023)
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Exact Diagonalisation of Photon Bose-Einstein Condensates with Thermo-Optic Interaction (B6)
🔓 Enrico Stein, Axel Pelster: New J. Phys. 25 033026 (2023)
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Hartree–Fock analogue theory of thermo-optic interaction (B6)
🔓 Enrico Stein, Axel Pelster: New J. Phys. 25 033025 (2023)
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2022
Geometric control of next-nearest-neighbor coupling in evanescently coupled dielectric waveguides (B6)
🔓 J. Schulz, C. Jörg, and G. von Freyman: Optics Express 6, 9869 (2022)
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Compressibility and the Equation of State of an Optical Quantum Gas in a Box (B1, B6)
🔓 Erik Busley, Leon Espert Miranda, Andreas Redmann, Christian Kurtscheid, Kirankumar Karkihalli Umesh, Frank Vewinger, Martin Weitz, Julian Schmitt: Science 375, 1403–1406 (2022)
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Observation of Quadratic (Charge-2) Weyl Point Splitting in Near-Infrared Photonic Crystals (B6)
🔓 Christina Jörg, Sachin Vaidya, Jiho Noh, Alexander Cerjan, Shyam Augustine, Georg von Freymann, Mikael C. Rechtsman: Laser Photonics Rev. 2022, 16, 2100452 (2022)
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Photon BEC with Thermo-Optic Interaction at Dimensional Crossover (B6)
🔓 Enrico Stein, Axel Pelster: New J. Phys. 24 023032 (2022)
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Variational truncated Wigner approximation for weakly interacting Bose fields: Dynamics of coupled condensates (B2, B3, B6)
🔓 Christopher D. Mink, Axel Pelster, Jens Benary, Herwig Ott, Michael Fleischhauer: SciPost Phys. 12, 051 (2022)
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Thermodynamics of Trapped Photon Gases at Dimensional Crossover from 2D to 1D (B6)
🔓 Enrico Stein and Axel Pelster: New Journal of Physics 24, 023013 (2022)
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2021
Nonlocality-induced surface localization in Bose-Einstein condensates of light (B6)
🔓 Marcello Calvanese Strinati, Frank Vewinger, Claudio Conti: Phys. Rev. A 105, 043318 (2022)
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Observation of bound states in the continuum embedded in symmetry bandgaps (B6)
🔓 Alexander Cerjan, Christina Jörg, Sachin Vaidya, Shyam Augustine, Wladimir A. Benalcazar, Chia Wei Hsu, Georg von Freymann, Mikael C. Rechtsman: Sci. Adv. 7, eabk1117 (2021)
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Topological photonics in 3D micro-printed systems (B6)
🔓 Julian Schulz, Sachin Vaidya, and Christina Jörg: APL Photonics 6, 080901 (2021)
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Green's function approach to the Bose–Hubbard model with disorder (B5, B6)
🔓 R S Souza, Axel Pelster and F E A dos Santos: New J. Phys. 23 083007 (2021)
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Mapping as a probe for heating suppression in periodically driven quantum many-body systems (A6, B6)
🔓 Etienne Wamba, Axel Pelster, James R. Anglin: arXiv:2108.07171 (2021)
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Bosonic Continuum Theory of One-Dimensional Lattice Anyons (A5, B6)
🔓 Martin Bonkhoff, Kevin Jägering, Sebastian Eggert, Axel Pelster, Michael Thorwart and Thore Poske: Phys. Rev. Lett. 126, 163201 (2021)
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Non-equilibrium evolution of Bose-Einstein condensate deformation in temporally controlled weak disorder (B5, B6)
🔓 Milan Radonjic and Axel Pelster: SciPost Physics, 10, 008 (2021)
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2020
Observation of a Charge-2 Photonic Weyl Point in the Infrared (B6)
🔓 Sachin Vaidya, Jiho Noh, Alexander Cerjan, Christina Jörg, Georg von Freymann, and Mikael C Rechtsman: Phys. Rev. Lett., 125, 253902 (2020)
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Cloud shape of a molecular Bose–Einstein condensate in a disordered trap: a case study of the dirty boson problem (B5, B6)
🔓 Benjamin Nagler, Milan Radonjić, Sian Barbosa, Jennifer Koch, Axel Pelster, and Artur Widera: New Journal of Physics, 22(3), 033021 (2020)
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Generalized laws of refraction and reflection at interfaces between different photonic artificial gauge fields (B6)
🔓 Moshe-Ishay Cohen, Christina Jörg, Yaakov Lumer, Yonatan Plotnik, Erik H Waller, Julian Schulz, Georg von Freymann, and Mordechai Segev: Light: Science & Applications, 9, 200 (2020)
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Artificial gauge field switching using orbital angular momentum modes in optical waveguides (C, B6)
🔓 Christina Jörg, Gerard Queraltó, Mark Kremer, Gerard PelegrÃ, Julian Schulz, Alexander Szameit, Georg von Freymann, Jordi Mompart, and Verònica Ahufinger: Light: Science & Applications, 9, 150 (2020)
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Floquet-induced superfluidity with periodically modulated interactions of two-species hardcore bosons in a one-dimensional optical lattice (A5, B2, B6)
🔓 Tao Wang, Shijie Hu, Sebastian Eggert, Michael Fleischhauer, Axel Pelster, and Xue-Feng Zhang: Phys. Rev. Research, 2, 013275 (2020)
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Exact N-point-function mapping between pairs of experiments with Markovian open quantum systems (B6)
Etienne Wamba and Axel Pelster: Phys. Rev. A 102, 043320 (2020)
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New since July 2020