Design and optimization of laseractive nanoparticles for fiber lasers
- authored by
- Jonas Thiem, Simon Spelthann, Laurie Neumann, Hans Hermann Johannes, Wolfgang Kowalsky, Dietmar Kracht, Jörg Neumann, Axel Rühl, Detlev Ristau
- Abstract
For many applications it is desirable to extend the emission wavelengths of fiber laser systems to the visible spectral range. Most state-of-the-art fiber lasers for the visible range use either a nonlinear process to convert infrared light generated in the fiber, complex host materials like ZBLAN [1], or laser dyes as dopant for polymer fiber exhibiting amplification factors of around 10 dB in a 25 cm amplifier [2]. All of these possibilities have disadvantages like the need for fluoride glasses or the degradation of laser dyes [3]. Core/shell nanoparticles (NP) consisting of crystalline Pr:YLF or Pr:LiLuF could be used as an active material for optical fibers which directly emits in the visible spectral range. This configuration preserves the crystalline character of the gain medium and reduces quenching effects to the host material as discussed in a corresponding contribution submitted by us [4]. In this contribution, we demonstrate that it is feasible to utilize these NPs as doping material for polymer fiber lasers providing amplification factors comparable to laser dyes. It is important to mention that the numerical model used is not restricted to polymer fiber doped, but adaptable to any host material.
- Organisation(s)
-
Institute of Quantum Optics
PhoenixD: Photonics, Optics, and Engineering - Innovation Across Disciplines
- External Organisation(s)
-
Technische Universität Braunschweig
Laser Zentrum Hannover e.V. (LZH)
- Type
- Conference contribution
- Publication date
- 2019
- Publication status
- Published
- Peer reviewed
- Yes
- ASJC Scopus subject areas
- Electronic, Optical and Magnetic Materials, Mechanics of Materials
- Electronic version(s)
-
https://doi.org/10.1109/cleoe-eqec.2019.8872401 (Access:
Closed)