Broadband fiber-to-chip coupling in different wavelength regimes realized by 3D-structures
Gehring H; Blaicher M; Eich A; Hartmann W; Varytis P; Busch K; Schuck C; Wegener M; Pernice WHP
Research article in edited proceedings (conference) | Peer reviewedAbstract
We present efficient coupling schemes based on direct-laser-writing to enable broadband interfacing of nanophotonic circuits to optical fibers. We demonstrate wide bandwidth coupling at both telecom and visible wavelengths.
Details about the publication
Editors: Optica Publishing Group
Book title: Conference on Lasers and Electro-Optics (2020), paper JTh2B.22
Page range: JTh2B.22-JTh2B.22
Publisher: Optica
Place of publication: Washington
Status: Published
Release year: 2020
Language in which the publication is written: English
Conference: CLEO 2020, Washington, United States
Link to the full text: https://opg.optica.org/abstract.cfm?uri=CLEO_SI-2020-JTh2B.22
Keywords: Laser sources, Optical circuits, Optical fibers, Supercontinuum lasers, Total internal reflection, Tunable lasers
Authors from the University of Münster
| Eich, Alexander | Professorship of Experimental Physics (Prof. Schuck) |
| Gehring, Helge | Professorship for Experimental Physics and Physics of Responsive Nanosystems (Prof. Pernice) |
| Hartmann, Wladislaw | Professorship for Experimental Physics and Physics of Responsive Nanosystems (Prof. Pernice) |
| Pernice, Wolfram | Professorship for Experimental Physics and Physics of Responsive Nanosystems (Prof. Pernice) |
| Schuck, Carsten | Professorship of Experimental Physics (Prof. Schuck) |