1,316 research outputs found
New energy-transfer upconversion process in Er(3+):ZBLAN mid-infrared fiber lasers
Abstract not availableOri Henderson-Sapir, Jesper Munch, and David J. Ottawa
Versatile and widely tunable mid-infrared erbium doped ZBLAN fiber laser
We report on a long wavelength emitting rare earth doped fiber laser with
emission centered at 3.5 {\mu}m and tunable across 450 nm. The longest
wavelength emission was 3.78 {\mu}m, which is the longest emission from a fiber
laser operating at room temperature. In a simple optical arrangement employing
dielectric mirrors for feedback, the laser was capable of emitting 1.45 W of
near diffraction limited output power at 3.47 {\mu}m. These emission
characteristics compliment the emission from quantum cascade lasers and
demonstrate how all infrared dual wavelength pumping can be used to access high
lying rare earth ion transitions that have previously relied on visible
wavelength pumping
Stabilization of injection-locked lasers using spatial mode interference
We report the use of spatial-mode-interference, or tilt-locking, for the active stabilization of injection-locking of a Nd:YAG laser. We show that this control scheme is robust and adds negligible frequency noise to the injection-locked laserOttaway, D.J.; Gray, M.B.; Shaddock, D.A.; Hollitt, C.; Veitch, P.J.; Munch, J.; McClelland, David Ernes
Power scalable TEM(oo) CW Nd: YAG laser with thermal lens compensation
We present finite-element analyzes and experimental results to validate our approach for building high-power single-mode Nd:YAG lasers. We show that the thermooptical and thermomechanical properties of a slab laser can be controlled. This is essential for the use of the proposed unstable resonator. We include demonstration of an efficient subscale laser operating at 20 W TEM00.D. Mudge, M. Ostermeyer, P. J. Veitch, J. Munch, B. Middlemiss, D. J. Ottaway and M. W. Hamilto
Cryogenic, conduction cooled, end pumped, zigzag slab laser, suitable for power scaling
Thermo mechanical and thermo optical properties of Yb:YAG improve significantly at cryogenic temperatures. We present the first end pumped, zigzag slab Yb:YAG geometry, which is cryogenically conduction cooled, robust, and power scalable. Ā© OSA 2012.M. Ganija, D. Ottaway, P. Veitch, and J. Munc
A cryogenic, end pumped, zigzag slab laser suitable for power scaling
Power scaling in solid-state lasers is limited by thermally induced distortion and birefringence in the laser crystal. It is well known that the thermo-mechanical and thermo-optical properties of YAG improve significantly at cryogenic temperatures, but these advantages remain to be fully exploited in robust, power scalable designs. We report the first cryogenic, conduction cooled, end pumped, zigzag slab Yb:YAG laser capable of repeated temperature cyclinMiftar Ganija, David J. Ottaway, Peter J. Veitch, and Jesper Munc
Harnessing the power of complex light propagation in multimode fibers for spatially resolved sensing
The propagation of coherent light in multimode optical fibers results in a
speckled output that is both complex and sensitive to environmental effects.
These properties can be a powerful tool for sensing, as small perturbations
lead to significant changes in the output of the fiber. However, the mechanism
to encode spatially resolved sensing information into the speckle pattern and
the ability to extract this information is thus far unclear. In this paper, we
demonstrate that spatially dependent mode coupling is crucial to achieving
spatially resolved measurements. We leverage machine learning to quantitatively
extract this spatially resolved sensing information from three fiber types with
dramatically different characteristics and demonstrate that the fiber with the
highest degree of spatially dependent mode coupling provides the greatest
accuracy.Comment: 17 pages and 7 figure
In situ measurement of absorption in high-power interferometers by using beam diameter measurements
We present a simple technique to make in situ measurements of the absorption in the optics of high-power laser interferometers. The measurement is particularly useful to those commissioning large-scale high power optical systems.David Ottaway, Joseph Betzwieser, Stefan Ballmer, Sam Waldman and William Kell
Sea anemones may thrive in a high CO2 world
Increased seawater pCO 2, and in turn 'ocean acidification' (OA), is predicted to profoundly impact marine ecosystem diversity and function this century. Much research has already focussed on calcifying reef-forming corals (Class: Anthozoa) that appear particularly susceptible to OA via reduced net calcification. However, here we show that OA-like conditions can simultaneously enhance the ecological success of non-calcifying anthozoans, which not only play key ecological and biogeochemical roles in present day benthic ecosystems but also represent a model organism should calcifying anthozoans exist as less calcified (soft-bodied) forms in future oceans. Increased growth (abundance and size) of the sea anemone (Anemonia viridis) population was observed along a natural CO 2 gradient at Vulcano, Italy. Both gross photosynthesis (P G) and respiration (R) increased with pCO 2 indicating that the increased growth was, at least in part, fuelled by bottom up (CO 2 stimulation) of metabolism. The increase of P G outweighed that of R and the genetic identity of the symbiotic microalgae (Symbiodinium spp.) remained unchanged (type A19) suggesting proximity to the vent site relieved CO 2 limitation of the anemones' symbiotic microalgal population. Our observations of enhanced productivity with pCO 2, which are consistent with previous reports for some calcifying corals, convey an increase in fitness that may enable non-calcifying anthozoans to thrive in future environments, i.e. higher seawater pCO 2. Understanding how CO 2-enhanced productivity of non- (and less-) calcifying anthozoans applies more widely to tropical ecosystems is a priority where such organisms can dominate benthic ecosystems, in particular following localized anthropogenic stress. Ā© 2012 Blackwell Publishing Ltd
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