Electric field poling of silica glass provides the prospect of efficient second-order nonlinear interactions in optical fibres. Recent advances in quasi-phase-matched second harmonic generation in electric field poled silica fibres are reviewed
A permanent second-order non-linearity is induced in a phosphorus and germania doped optical fibre v...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
The microscopic description of the poling process allows us to describe the occurrence of second-or...
Electric field poling of silica glass provides the prospect of efficient second-order nonlinear inte...
Recent advances in silica fibres exhibiting second-order optical nonlinearities as a result of both ...
We report on quasi-phase-matched frequency doubling to the blue in electric-field poled optical fibr...
90° phase matching in periodically poled fused silica is achieved over approximately 2 mm at a wavel...
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
Glass, e.g. silica glass, is one of the dominant materials in information technology because of its ...
One decade has passed since the discovery of self-organized (photoinduced quasi-phase-matched) secon...
Glass, an amorphous centrosymmetric material, does not possess any macroscopic second-order optical ...
Since the discovery of efficient second-harmonic generation (SHG) in Ge/P-doped fibres after exposur...
Recent developments in the application of poled optical fibers to second harmonic generation and ele...
Few discoveries have puzzled the optics community more than the emergence of visible (green) light f...
90° phase matching in periodically poled fused silica is achieved over approximately 2 mm at a wavel...
A permanent second-order non-linearity is induced in a phosphorus and germania doped optical fibre v...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
The microscopic description of the poling process allows us to describe the occurrence of second-or...
Electric field poling of silica glass provides the prospect of efficient second-order nonlinear inte...
Recent advances in silica fibres exhibiting second-order optical nonlinearities as a result of both ...
We report on quasi-phase-matched frequency doubling to the blue in electric-field poled optical fibr...
90° phase matching in periodically poled fused silica is achieved over approximately 2 mm at a wavel...
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
Glass, e.g. silica glass, is one of the dominant materials in information technology because of its ...
One decade has passed since the discovery of self-organized (photoinduced quasi-phase-matched) secon...
Glass, an amorphous centrosymmetric material, does not possess any macroscopic second-order optical ...
Since the discovery of efficient second-harmonic generation (SHG) in Ge/P-doped fibres after exposur...
Recent developments in the application of poled optical fibers to second harmonic generation and ele...
Few discoveries have puzzled the optics community more than the emergence of visible (green) light f...
90° phase matching in periodically poled fused silica is achieved over approximately 2 mm at a wavel...
A permanent second-order non-linearity is induced in a phosphorus and germania doped optical fibre v...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
The microscopic description of the poling process allows us to describe the occurrence of second-or...