Heinrich Schwoerer's research works | Max Planck Institute for the Structure and Dynamics of Matter, Hamburg and other places
Efficient self-compression of ultrashort near-UV pulses in air-filled hollow-core photonic crystal fibers
Control of higher-order cladding mode excitation with tailored femtosecond-written long period fiber gratings
Efficient self-compression of ultrashort near-UV pulses in air-filled hollow-core photonic crystal fibers
Control of higher-order cladding mode excitation with tailored femtosecond-written long period fiber gratings
arXiv:1903.04067v1 [physics.optics] 10 Mar 2019
Dynamic operation of optical fibres beyond the single-mode regime facilitates the orientation of biological cells | Nature Communications
Non-invasive real-time characterization of hollow-core photonic crystal fibers using whispering gallery mode spectroscopy
Barbara M. Trabold's research works | Max-Planck-Institut für die Physik des Lichts, Erlangen (MPL) and other places
Efficient nitrogen-vacancy centers' fluorescence excitation and collection from micrometer-sized diamond by a tapered optical fiber in endoscope-type configuration
Efficient self-compression of ultrashort near-UV pulses in air-filled hollow-core photonic crystal fibers
University Positions - Optical fibre with Einstein effect
Intermodal Brillouin scattering in solid-core photonic crystal fibers: APL Photonics: Vol 6, No 3
PDF) Specialty Photonic Crystal Fibers and Their Applications
Ultra-high birefringent low loss suspended elliptical core photonic crystal fiber for terahertz applications
M. H. Frosz's research works | Max-Planck-Institut für die Physik des Lichts, Erlangen (MPL) and other places
Hybrid Optical Fibers – An Innovative Platform for In‐Fiber Photonic Devices - Alexander Schmidt - 2016 - Advanced Optical Materials - Wiley Online Library
Hybrid Optical Fibers – An Innovative Platform for In‐Fiber Photonic Devices - Alexander Schmidt - 2016 - Advanced Optical Materials - Wiley Online Library
Non-invasive real-time characterization of hollow-core photonic crystal fibers using whispering gallery mode spectroscopy
Five-ring hollow-core photonic crystal fiber with 1.8 dB/km loss
Photonic-crystal fiber - Wikipedia
Heinrich Schwoerer's research works | Max Planck Institute for the Structure and Dynamics of Matter, Hamburg and other places
Non-invasive real-time characterization of hollow-core photonic crystal fibers using whispering gallery mode spectroscopy
Non-invasive real-time characterization of hollow-core photonic crystal fibers using whispering gallery mode spectroscopy
The UN International Year of Glass, cele brated throughout 2022, offers an opportunity to reflect on the enabling role of glas
