Add to ORKGWe show that germanium-doped graded-index multimode silica fibers can exhibit relatively high conversion efficiencies (∼6.5%) for second-harmonic generation when excited at 1064 nm. This frequency-doubling behavior is also found to be accompanied by an effective downconversion. As opposed to previous experiments carried out in single- and few-mode fibers where hours of preparation were required, in our system, these χ 2 related processes occur almost instantaneously. The efficiencies observed in our experiments are, to the best of our knowledge, among the highest ever reported in unprepared fibers
We study experimentally and numerically the spectral and spatial dynamics of second harmonic generat...
We demonstrate that frequency generation in multimode graded-index fibers can be tailored through ap...
We simulate and experimentally demonstrate deep UV generation from a 1550 nm laser source in a fully...
The generation of 236 mW of second-harmonic power in a 32-cm-long periodically poled silica fiber, c...
Optical fibers provide a favorable medium for nonlinear optical processes owing to the small mode fi...
Silica fibers exhibiting high second-order nonlinearities (SON) could be used to develop a new gener...
Recent advances in silica fibres exhibiting second-order optical nonlinearities as a result of both ...
Seeded second harmonic generation (SHG) is compared between room temperature (RT) and liquid N2 temp...
International audienceAll-optical poling was demonstrated for the first time in 1986 in single mode ...
We present the design, fabrication, and characterization of a highly nonlinear few-mode fiber (HNL-F...
The mechanism and properties of high conversion efficiency second harmonic generation in optical fib...
D-shape silica fibres have been periodically poled at elevated temperature by applying high voltage ...
Since the discovery of efficient second-harmonic generation (SHG) in Ge/P-doped fibres after exposur...
International audienceThe generation of a two-octave supercontinuum from the visible to mid-infrared...
We fabricated second-order nonlinear gratings in D-shaped germanosilicate fibres using thermal polin...
We study experimentally and numerically the spectral and spatial dynamics of second harmonic generat...
We demonstrate that frequency generation in multimode graded-index fibers can be tailored through ap...
We simulate and experimentally demonstrate deep UV generation from a 1550 nm laser source in a fully...
The generation of 236 mW of second-harmonic power in a 32-cm-long periodically poled silica fiber, c...
Optical fibers provide a favorable medium for nonlinear optical processes owing to the small mode fi...
Silica fibers exhibiting high second-order nonlinearities (SON) could be used to develop a new gener...
Recent advances in silica fibres exhibiting second-order optical nonlinearities as a result of both ...
Seeded second harmonic generation (SHG) is compared between room temperature (RT) and liquid N2 temp...
International audienceAll-optical poling was demonstrated for the first time in 1986 in single mode ...
We present the design, fabrication, and characterization of a highly nonlinear few-mode fiber (HNL-F...
The mechanism and properties of high conversion efficiency second harmonic generation in optical fib...
D-shape silica fibres have been periodically poled at elevated temperature by applying high voltage ...
Since the discovery of efficient second-harmonic generation (SHG) in Ge/P-doped fibres after exposur...
International audienceThe generation of a two-octave supercontinuum from the visible to mid-infrared...
We fabricated second-order nonlinear gratings in D-shaped germanosilicate fibres using thermal polin...
We study experimentally and numerically the spectral and spatial dynamics of second harmonic generat...
We demonstrate that frequency generation in multimode graded-index fibers can be tailored through ap...
We simulate and experimentally demonstrate deep UV generation from a 1550 nm laser source in a fully...