Title :
Fiber Design For High-Power Low-Cost Yb:Al-Doped Fiber Laser Operating at 980 nm
Author :
Kim, J. ; Soh, Daniel B S ; Nilsson, Johan ; Richardson, David J. ; Sahu, Jayanta K.
Author_Institution :
Univ. of Southampton, Southampton
Abstract :
We investigated an Yb:Al-doped depressed-clad hollow optical fiber (DCHOF) for cladding-pumped 980-nm laser operation. With a careful design, the nonzero fundamental-mode cutoff characteristics of a DCHOF allows the competing 1030- 1060 nm emission to be filtered out, despite being quite close to 980 nm. The laser yielded over 3 W of output power in a diffraction limited beam (M2~1.09) from a DCHOF with an inner-cladding diameter of 120 mum. This is large enough for pumping with standard fiber-coupled multimode diode sources. By reducing the inner-cladding size to 90 mum, and hence, lowering the 980-nm threshold, the output power was scaled up to 7.5 W. However, we believe that the M2-parameter degrades to 2.7, as a result of increased cladding-mode lasing, as the cladding thickness is reduced.
Keywords :
aluminium; fibre lasers; optical fibres; ytterbium; cladding-pumped laser; depressed-clad hollow optical fiber; fiber design; high-power fiber laser; nonzero fundamental-mode cutoff; optical fiber fabrication; optical fiber laser; power 7.5 W; wavelength 980 nm; Fiber lasers; Laser beam cutting; Laser beams; Optical design; Optical diffraction; Optical fiber filters; Optical fibers; Power generation; Power lasers; Pump lasers; Optical fiber fabrication; Ytterbium; optical fiber lasers;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2007.896628
