Add to ORKGD-shaped glass fibres have been periodically poled using standard planar lithography to define the patterned electrode and applying high voltage at elevated temperature. The resulting nonlinear gratings, uniform over 75 mm have been used for efficient second-order nonlinear frequency conversion. Efficiencies of ~1% have been achieved with demonstrated potential of several 10s
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
Recent developments in the application of poled optical fibres to electrooptic light modulation and ...
Second-order nonlinear gratings in optical fibres have been produced for efficient quasi-phase-match...
D-shape silica fibres have been periodically poled at elevated temperature by applying high voltage ...
Recent advances in silica fibres exhibiting second-order optical nonlinearities as a result of both ...
Record second-harmonic efficiencies exceeding 20% and parametric fluorescence have been demonstrated...
The centrosymmetry of amorphous silica can be broken through the technique of thermal poling, whereb...
Reported in this thesis are advances in glass poling, a technique which produces second-order optica...
We report on quasi-phase-matched frequency doubling to the blue in electric-field poled optical fibr...
Record high efficient frequency doublers in periodically poled silica fibres are demonstrated for li...
We fabricated second-order nonlinear gratings in D-shaped germanosilicate fibres using thermal polin...
Glass, e.g. silica glass, is one of the dominant materials in information technology because of its ...
Efficient all-fibre frequency doubling of 1.5 µm pulsed fibre laser has been demonstrated. 3.6 mW of...
Glass, an amorphous centrosymmetric material, does not possess any macroscopic second-order optical ...
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
Recent developments in the application of poled optical fibres to electrooptic light modulation and ...
Second-order nonlinear gratings in optical fibres have been produced for efficient quasi-phase-match...
D-shape silica fibres have been periodically poled at elevated temperature by applying high voltage ...
Recent advances in silica fibres exhibiting second-order optical nonlinearities as a result of both ...
Record second-harmonic efficiencies exceeding 20% and parametric fluorescence have been demonstrated...
The centrosymmetry of amorphous silica can be broken through the technique of thermal poling, whereb...
Reported in this thesis are advances in glass poling, a technique which produces second-order optica...
We report on quasi-phase-matched frequency doubling to the blue in electric-field poled optical fibr...
Record high efficient frequency doublers in periodically poled silica fibres are demonstrated for li...
We fabricated second-order nonlinear gratings in D-shaped germanosilicate fibres using thermal polin...
Glass, e.g. silica glass, is one of the dominant materials in information technology because of its ...
Efficient all-fibre frequency doubling of 1.5 µm pulsed fibre laser has been demonstrated. 3.6 mW of...
Glass, an amorphous centrosymmetric material, does not possess any macroscopic second-order optical ...
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
Recent developments in the application of poled optical fibres to electrooptic light modulation and ...