Title :
High-power air-clad large-mode-area photonic crystal fiber laser
Author :
Schreiber, T. ; Limpert, J. ; Nolte, S. ; Zellmer, H. ; Tunnermann, Andreas ; Iliew, R. ; Lederer, F. ; Broeng, J. ; Vienne, G. ; Petersson, A. ; Jakobsen, C.
Author_Institution :
Inst. of Appl. Phys., Friedrich-Schiller-Univ., Jena, Germany
Abstract :
In this paper, we present the results of a high power photonic crystal fiber laser, where the well-known concepts of double-clad and large-mode-area design are transfered to an actively doped microstructured fiber. The double-clad design is achieved by surrounding the inner cladding (pump core) with a web of silica bridges (as thin as 390 nm and approximately 50 μm long) which are substantially narrower than the wavelength of the guided radiation. It is concluded that air-clad microstructure ytterbium-doped large-mode-area fibers should be scalable to kW-level output powers, where nonlinearity will limit the performance.
Keywords :
fibre lasers; micro-optics; optical fibre cladding; optical materials; photonic crystals; silicon compounds; ytterbium; 390 nm; 50 micron; SiO3; air-clad microstructure; double-clad design; microstructured fiber; photonic crystal fiber laser; silica bridge; ytterbium-doped large-mode-area fibers; Absorption; Fiber lasers; High power fiber lasers; Laser theory; Microstructure; Photonic crystal fibers; Physics; Power generation; Power lasers; Pump lasers;
Conference_Titel :
Lasers and Electro-Optics Europe, 2003. CLEO/Europe. 2003 Conference on
Print_ISBN :
0-7803-7734-6
DOI :
10.1109/CLEOE.2003.1313717
