Photonics West 2024
Wir sind auf Konferenz und Messe vertreten - besuchen Sie uns auf dem German Pavillion. Stand 4205-43
Nähere Informationen zu unseren Exponaten finden Sie in der Pressemitteilung.
An folgenden Präsentationen ist das FBH beteiligt:
27.01.2023
28.01.2023
29.01.2024
- Diode pumps for future laser plasma accelerators: perspectives from research and industry
- Distributed Bragg reflector tapered diode lasers emitting reliably more than 7 W at 1180 nm
- Passively mode-locked monolithic diode lasers with a tapered gain section generating picosecond pulses with 45 W peak power at 780 nm
- High brightness pumps for fiber lasers based on monolithically grating stabilized diode lasers
- Ultra-wide-aperture diode lasers with high brightness through use of buried periodic current structuring
30.01.2024
- Modeling of the gate leakage in MOSFETs with Al2O3/β-Ga2O3 gate stack
- Versatile turnkey laser system operating multi-section diode lasers and diode laser systems in the VIS and NIR spectral range
- Degradation mechanisms in UV LEDs and approaches for higher reliability
- Prospects of Far-UVC LED Technology
- Two-photon polymerization with a 780 nm monolithic diode laser
- Hybrid semiconductor master-oscillator power-amplifiers with more than 5 W optical output power
- High-power micro-laser sources in the green spectral range with single-mode fiber output
- Defects, performance and reliability in UV-C LEDs
- High power AlGaInP laser diodes at 626 nm
- 200 W pulse power from a distributed Bragg reflector broad area laser with multiple active regions for LiDAR applications
- A study into lateral and longitudinal spatial hole burning as a limit to CW output power in GaAs-based high-power diode lasers
31.01.2024
- Surface-emitting lasers across the visible and ultraviolet spectrum
- Portable shifted excitation Raman difference spectroscopy for agri-photonics: from on-site precision agriculture to smart farming
- Comparison of Y-branch and multimode interference coupler-based dual-wavelength light sources at 785 nm
- Optically pumped UVC VCSELs
01.02.2024