CLEO/Europe-EQEC 2025

Das FBH ist mit zahlreichen Beiträgen auf der CLEO/Europe-EQEC 2025 vertreten.

• Restoring Information from Sparse Single Photon Detection Events for Experiments in Quantum Optics
• Double helical antennas for direct coupling to quantum emitters or plasmonic waveguides
• Hetero-integration of diamond nanostructures on AlGaN-based photonic circuits
• Compact, Low-Noise, Low-SWaP Diode Lasers and Photonic Modules for Quantum Technology Applications
• Micro-integrated Light Control Units for Low-SWaP Quantum Optical Sensing Applications
• Fully-Automated Large-Scale Characterization of Solid-State Color Centers for Quantum Communication
• Bayesian Optimization for Data Selection in Bragg Grating Design Space for Machine Learning Training
• Miniaturised optical isolators for realising micro-integrated photonic modules in quantum technology applications
• Optically Stable NV Centers Integrated into Highly Tunable Diamond Photonic Crystal Cavities
• Heterogeneously Integrated Evanescently Coupled Laser Systems on SiN Emitting in the Near-Infrared Band
• Design and Fabrication of Transfer-Printable Evanescently Coupled GaAs-based Amplifier
• Monolithic Dual-Wavelength DBR Diode Laser at 633 nm Suitable for Raman Spectroscopy in Fluorescent Environments
• High-temperature operation of tuneable 780 nm DBR lasers for spectroscopic applications
• Space-Qualified Ridge Waveguide Optical Amplifiers for Ultra-Cold Atom Experiments on the ISS
• Developments in Mid-Infrared Spectroscopy with Undetected Photons using Grating Spectrometers
• Miniaturized Optical Frequency Reference and Crossed Beam Optical Dipole Trap Systems for Compact Atom-Based Quantum Sensors
• Testing a Photonic Chip Hosting an Actively Tunable Laser-Written Waveguide Interferometer with an Integrated 2D Material on a Satellite
• Nonlinear harmonic generation in sub-5 nm plasmonic nanogap metasurfaces
• Monolithically Integrated GaAs-based Ring-Resonator-Coupled Lasers
• Efficient 970 nm Ridge Waveguide Lasers for Space-Based Power Beaming Application
• Improved compact 1 kW diode laser module emitting at 780 nm for the efficient direct additive manufacturing of aluminium
• Wavelength-stabilized multi-active region DBR ridge-waveguide lasers for high peak-power pulsed operation
• Advanced Bragg grating reflectance analysis using FDTD for coupled mode theory-based surrogate models

Sämtliche Informtionen finden Sie auf der Konferenzwebsite.