Add to ORKGPermanent electric-field-induced linear electro-optic effects have been observed in fused-silica optical fibres subjected to strong electric fields by means of internal electrodes. This electric-field-poling phenomenon can be used to construct a Pockels modulator and other electro-optic devices
We demonstrate the use of the electrooptic effect to control the propagation constant of the guided ...
Video illustrating optical erasure of the electrooptical effect in a poled fiber Originally publishe...
Conventional thermal poling methods require direct physical contact to internal fiber electrodes. He...
Optical fibres have been used to sense many different physical quantities (magnetic fields, vibratio...
Electric field poling of silica glass provides the prospect of efficient second-order nonlinear inte...
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 ...
Since the discovery of efficient second-harmonic generation (SHG) in Ge/P-doped fibres after exposur...
It is shown that large permanent enhancements in second-order optical nonlinearity can be induced in...
Nowadays there is an increasing demand for the cost-effective monitoring of potential threats to the...
In this thesis are reported progresses in the development of a technique known as thermal poling of ...
Glass, an amorphous centrosymmetric material, does not possess any macroscopic second-order optical ...
The authors report the first observation of strong electro-acousto-optic transduction in thermally p...
Although glasses have relatively-low non-linear coefficients, the advent of low-loss guided-wave str...
Two types of electro-optic effect that are linear in the applied electric field strength are theoret...
We demonstrate the use of the electrooptic effect to control the propagation constant of the guided ...
Video illustrating optical erasure of the electrooptical effect in a poled fiber Originally publishe...
Conventional thermal poling methods require direct physical contact to internal fiber electrodes. He...
Optical fibres have been used to sense many different physical quantities (magnetic fields, vibratio...
Electric field poling of silica glass provides the prospect of efficient second-order nonlinear inte...
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 ...
Since the discovery of efficient second-harmonic generation (SHG) in Ge/P-doped fibres after exposur...
It is shown that large permanent enhancements in second-order optical nonlinearity can be induced in...
Nowadays there is an increasing demand for the cost-effective monitoring of potential threats to the...
In this thesis are reported progresses in the development of a technique known as thermal poling of ...
Glass, an amorphous centrosymmetric material, does not possess any macroscopic second-order optical ...
The authors report the first observation of strong electro-acousto-optic transduction in thermally p...
Although glasses have relatively-low non-linear coefficients, the advent of low-loss guided-wave str...
Two types of electro-optic effect that are linear in the applied electric field strength are theoret...
We demonstrate the use of the electrooptic effect to control the propagation constant of the guided ...
Video illustrating optical erasure of the electrooptical effect in a poled fiber Originally publishe...
Conventional thermal poling methods require direct physical contact to internal fiber electrodes. He...