Characterization of Yb-doped ZBLAN fiber as a platform for radiation-balanced lasers
Abstract
Recent advances in power scaling of fiber lasers are hindered by the thermal issues, which deteriorate the beam quality. Anti-Stokes fluorescence cooling has been suggested as a viable method to balance the heat generated by the quantum defect and background absorption. Such radiation-balanced configurations rely on the availability of cooling-grade rare-earth-doped gain materials. Herein, we perform a series of tests on an ytterbium-doped ZrF 4 – BaF 2 – LaF 3 – AlF 3 – NaF (ZBLAN) optical fiber to extract its laser-cooling-related parameters and show that it is a viable laser-cooling medium for radiation balancing. In particular, a detailed laser-induced modulation spectrum test is performed to highlight the transition of this fiber to the cooling regime as a function of the pump laser wavelength. Numerical simulations support the feasibility of a radiation-balanced laser, but they highlight that practical radiation-balanced designs are more demanding on the fiber material properties, especially on the background absorption, than solid-state laser-cooling experiments.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jan 31, 2020
- Source ID
- 10.1364/prj.380615
Entities
People
- Arash Mafi
- Arman Allahverdi
- Behnam Abaie
- Esmaeil Mobini
- Mostafa Peysokhan
Organizations
- Air Force Office of Scientific Research