The paper deals with spectral and lasing characteristics of
thulium-doped optical fibers fabricated by means of two doping
techniques,
i.e. via a conventional solution-doping method and via
a nanoparticle-doping method. The difference in fabrication was the
application of a suspension of aluminum oxide nanoparticles of defined
size instead of a conventional chloride-containing solution. Samples of
thulium-doped silica fibers having nearly identical chemical composition
and waveguiding properties were fabricated. The sample fabricated by
means of the nanoparticle-doping method exhibited longer lifetime,
reflecting other observations and the trend already observed with the
fibers doped with erbium and aluminum nanoparticles. The fiber
fabricated by means of the nanoparticle-doping method exhibited a lower
lasing threshold (by ~20%) and higher slope efficiency (by ~5% rel.).
All these observed differences are not extensive and deserve more
in-depth research; they may imply a positive influence of the
nanoparticle approach on properties of rare-earth-doped fibers for fiber
lasers.
Self-swept erbium fiber laser emitting around 1.56 μm is reported in detail. Both sweep directions were registered: pointing toward longer and shorter wavelengths, redshift and blueshift sweeping, respectively. We describe method of determining the direction of the wavelength drift using the monochromator based optical spectrum analyzer. Possible root for this sweeping regime, i.e., the gain modulation along active fiber, is discussed with the help of a simple model calculating the overall cavity gain that can predict the direction of the laser wavelength sweeping.
We demonstrated two methods of increasing the bandwidth of a broadband light source based on amplified spontaneous emission in thulium-doped fibres. Firstly, we have shown by means of a comprehensive numerical model that the full-width at half maximum of the thulium-doped fibre based broadband source can be more than doubled by using specially tailored spectral filter placed in front of the mirror in a double-pass configuration of the amplified spontaneous emission source. The broadening can be achieved with only a small expense of the output power. Secondly, we report results of the experimental thulium-doped fibre broadband source, including fibre characteristics and performance of the thulium-doped fibre in a ring laser setup. The spectrum broadening was achieved by balancing the backward amplified spontaneous emission with back-reflected forward emission.