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Disambiguation of "Drozella, Johannes"

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Improved optical fiber tweezers using 3D printed Fresnel lenses (Conference Presentation)

, , , , , , , , and . Nanophotonics VIII, 11345, page 1134506. International Society for Optics and Photonics, SPIE, (2020)
DOI: 10.1117/12.2559875

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Johannes Drozella University of Stuttgart

Univ. -Prof. Dr. Johannes Kästner University of Stuttgart

Johannes Knittel University of Stuttgart

Johannes Schorr University of Stuttgart

Univ. -Prof. Dr. Johannes Steidle University of Stuttgart

 

Other publications of authors with the same name

Highly efficient dual-fibre optical trapping with 3D printed diffractive Fresnel lenses, , , , , , , , and . ACS Photonics, (2020)accepted.Micro-3D-printed multi-aperture freeform ultra-wide-angle systems: production, characterization, and correction, , , , , , , and . Laser-based Micro- and Nanoprocessing XVI, 11989, page 119890V. International Society for Optics and Photonics, SPIE, (2022)Improved optical fiber tweezers using 3D printed Fresnel lenses (Conference Presentation), , , , , , , , and . Nanophotonics VIII, 11345, page 1134506. International Society for Optics and Photonics, SPIE, (2020)Micro-3D-printed multi-aperture freeform ultra-wide-angle systems : production, characterization, and correction, , , , , , , and . Laser-based Micro- and Nanoprocessing XVI, 11989, page 119890V. Bellingham, SPIE, (2022)Highly Efficient Dual-Fiber Optical Trapping with 3D Printed Diffractive Fresnel Lenses, , , , , , , , and . ACS Photonics, 7 (1): 88-97 (2019)Highly Efficient Dual-Fiber Optical Trapping with 3D Printed Diffractive Fresnel Lenses, , , , , , , , and . ACS Photonics, 7 (1): 88--97 (October 2019)A 3D-printed fiber core multiplexing endoscope, , , , and . 3D Printed Optics and Additive Photonic Manufacturing IV, page 8. SPIE, (June 2024)Microscopic 3D printed optical tweezers for atomic quantum technology, , , , , , , and . Quantum Science and Technology, 7 (4): 045011 (July 2022)Coupling light emission of single-photon sources into single-mode fibers: mode matching, coupling efficiencies, and thermo-optical effects, , , , , , , and . Opt. Express, 30 (18): 32292--32305 (August 2022)Fast and comfortable GPU-accelerated wave-optical simulation for imaging properties and design of highly aspheric 3D-printed freeform microlens systems, , , and . Novel Optical Systems, Methods, and Applications XXII, 11105, page 1110506. SPIE, (2019)