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383 Publications


2024 | Journal Article | LibreCat-ID: 57553
S. Wijitpatima et al., “Bright Electrically Contacted Circular Bragg Grating Resonators with Deterministically Integrated Quantum Dots,” ACS Nano, vol. 18, no. 46, pp. 31834–31845, 2024, doi: 10.1021/acsnano.4c07820.
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2024 | Journal Article | LibreCat-ID: 57678
T. Henksmeier and D. Reuter, “Low-temperature fabrication of amorphous carbon films as a universal template for remote epitaxy,” Communications materials, 2024, doi: 10.48550/ARXIV.2410.15487.
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2024 | Journal Article | LibreCat-ID: 57815
M. Karzel et al., “Polariton-Induced Transparency in Multiple Quantum Wells Probed by Time Domain Brillouin Scattering,” ACS Photonics, 2024, doi: 10.1021/acsphotonics.4c01357.
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2023 | Journal Article | LibreCat-ID: 46133
F. Bopp et al., “Coherent driving of direct and indirect excitons in a quantum dot molecule,” Physical Review B, vol. 107, no. 16, Art. no. 165426, 2023, doi: 10.1103/physrevb.107.165426.
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2023 | Journal Article | LibreCat-ID: 46132
M. Littmann, D. Reuter, and D. J. As, “Remote Epitaxy of Cubic Gallium Nitride on Graphene‐Covered 3C‐SiC Substrates by Plasma‐Assisted Molecular Beam Epitaxy,” physica status solidi (b), vol. 260, no. 7, 2023, doi: 10.1002/pssb.202300034.
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2023 | Journal Article | LibreCat-ID: 46278
S. Feddersen, V. Zolatanosha, A. Alshaikh, D. Reuter, and C. Heyn, “Modeling of Masked Droplet Deposition for Site-Controlled Ga Droplets,” Nanomaterials, vol. 13, no. 3, Art. no. 466, 2023, doi: 10.3390/nano13030466.
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2023 | Journal Article | LibreCat-ID: 57677
D. Deutsch, C. Buchholz, V. Zolatanosha, K. D. Jöns, and D. Reuter, “Telecom C-band photon emission from (In,Ga)As quantum dots generated by filling nanoholes in In0.52Al0.48As layers,” AIP Advances, vol. 13, no. 5, 2023, doi: 10.1063/5.0147281.
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2022 | Book Chapter | LibreCat-ID: 29789
A. Bauer, D. Woitkowski, D. Reuter, and P. Reinhold, “Fachliche und überfachliche Herausforderungen in der Studieneingangsphase Physik,” in Hochschullehre erforschen. , U. Fahr, A. Kenner, H. Angenent, and A. Eßer-Lüghausen, Eds. Wiesbaden: Springer Fachmedien, 2022, pp. 339–362.
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2022 | Journal Article | LibreCat-ID: 30743
T. Riedl, V. S. Kunnathully, A. Trapp, T. Langer, D. Reuter, and J. K. N. Lindner, “Size‐Dependent Strain Relaxation in InAs Quantum Dots on Top of GaAs(111)A Nanopillars,” Advanced Materials Interfaces, Art. no. 2102159, 2022, doi: 10.1002/admi.202102159.
LibreCat | DOI
 

2022 | Journal Article | LibreCat-ID: 30880
M. Kobecki et al., “Giant Photoelasticity of Polaritons for Detection of Coherent Phonons in a Superlattice with Quantum Sensitivity,” Physical Review Letters, vol. 128, no. 15, Art. no. 157401, 2022, doi: 10.1103/physrevlett.128.157401.
LibreCat | DOI
 

2022 | Journal Article | LibreCat-ID: 32108
T. Henksmeier et al., “Remote epitaxy of InxGa1-xAs (0 0 1) on graphene covered GaAs(0 0 1) substrates,” Journal of Crystal Growth, vol. 593, Art. no. 126756, 2022, doi: 10.1016/j.jcrysgro.2022.126756.
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2022 | Journal Article | LibreCat-ID: 31241
A. K. Verma, F. Bopp, J. J. Finley, B. Jonas, A. Zrenner, and D. Reuter, “Low Areal Densities of InAs Quantum Dots on GaAs(100) Prepared by Molecular Beam Epitaxy,” Journal of Crystal Growth, Art. no. 126715, 2022, doi: 10.1016/j.jcrysgro.2022.126715.
LibreCat | DOI
 

2022 | Journal Article | LibreCat-ID: 31541
M. Kobecki et al., “Giant Photoelasticity of Polaritons for Detection of Coherent Phonons in a Superlattice with Quantum Sensitivity,” Physical Review Letters, vol. 128, no. 15, Art. no. 157401, 2022, doi: 10.1103/physrevlett.128.157401.
LibreCat | DOI
 

2022 | Journal Article | LibreCat-ID: 33332
F. Bopp et al., “Quantum Dot Molecule Devices with Optical Control of Charge Status and Electronic Control of Coupling,” Advanced Quantum Technologies, Art. no. 2200049, 2022, doi: 10.1002/qute.202200049.
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2022 | Journal Article | LibreCat-ID: 35232
F. Meier et al., “Selective Area Growth of Cubic Gallium Nitride in Nanoscopic Silicon Dioxide Masks,” physica status solidi (b), Art. no. 2200508, 2022, doi: 10.1002/pssb.202200508.
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2022 | Journal Article | LibreCat-ID: 34056
T. Riedl et al., “Selective area heteroepitaxy of InAs nanostructures on nanopillar-patterned GaAs(111)A,” Journal of Applied Physics, vol. 132, no. 18, Art. no. 185701, 2022, doi: 10.1063/5.0121559.
LibreCat | DOI
 

2022 | Journal Article | LibreCat-ID: 34053
T. Riedl, V. Kunnathully, A. Trapp, T. Langer, D. Reuter, and J. Lindner, “Size‐Dependent Strain Relaxation in InAs Quantum Dots on Top of GaAs(111)A Nanopillars,” Advanced Materials Interfaces, vol. 9, no. 11, Art. no. 2102159, 2022, doi: 10.1002/admi.202102159.
LibreCat | DOI
 

2022 | Journal Article | LibreCat-ID: 36804
T. Henksmeier et al., “Remote epitaxy of In(x)Ga(1-x)As(001) on graphene covered GaAs(001) substrates,” Journal of Crystal Growth, vol. 593, Art. no. 126756, 2022, doi: 10.1016/j.jcrysgro.2022.126756.
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2022 | Conference Paper | LibreCat-ID: 41800
M. Sartison, O. Camacho Ibarra, K. D. Jöns, I. Caltzidis, and D. Reuter, “Scalable integration of quantum emitters into photonic integrated circuits,” vol. 2. 2022, doi: https://doi.org/10.1088/2633-4356/ac6f3e.
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2022 | Journal Article | LibreCat-ID: 40523
B. Jonas et al., “Nonlinear down-conversion in a single quantum dot,” Nature Communications, vol. 13, no. 1, Art. no. 1387, 2022, doi: 10.1038/s41467-022-28993-3.
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