Title :
Characterization and optimization of the gain in Nd-doped single-mode fibers
Author :
Digonnet, Michel J F ; Liu, K. ; Shaw, Herbert J.
Author_Institution :
WW Hansen Lab. of Phys., Stanford Univ., CA, USA
fDate :
6/1/1990 12:00:00 AM
Abstract :
A model of gain in four-level laser fibers involving modal overlaps is presented, together with measurements of the gain near 1060 nm in Nd-doped glass fibers from different manufacturers. The measured fiber gain ranged from 0.2 to 0.42 dB/mW of absorbed pump power. Using their model, the authors show that these differences are quantitatively explained by differences in the degree of confinement provided by the fibers, i.e. by differences in the core size and numerical aperature (NA). This analysis suggests a stimulated emission cross section of 1.0×10-20 cm2 for this transition in a silica-based host. Based on this model, a gain as large as 1 dB/mW, or over twice as much as reported to date, is expected with proper selection of the core dimension and NA
Keywords :
glass fibres; modelling; neodymium; solid lasers; 1060 nm; Nd-doped glass fibers; Nd-doped single-mode fibers; absorbed pump power; core dimension; core size; fibre laser gain models; four-level laser fibers; modal overlaps; numerical aperature; silica-based host; stimulated emission cross section; Fiber lasers; Gain measurement; Glass; Laser modes; Neodymium; Optical fiber devices; Optical pumping; Performance gain; Pump lasers; Stimulated emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
