Add to ORKGThermal poling of holey fibres is demonstrated for the first time. Non-phase matched second harmonic generation with a ~10-8/W conversion efficiency was observed and the electro-optic coefficient was measured to be ~0.02pm/
Optical poling is a very simple technique for inducing a quadratic nonlinearity in germanium-doped s...
A technique by which the second order nonlinearity of poled silica fibre is significantly increased ...
The second-order nonlinearity profile in thermally poled twin-hole fibre was characterized by second...
Thermal poling of holey fibres is demonstrated for the first time. Non-phase matched second harmonic...
A second-order nonlinearity is induced for the first time in a holey fibre by thermal poling. Non-ph...
A study of first demonstration of thermal poling in holey fibers (HF) was performed. It was seen tha...
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
This review gives a perspective of the thermal poling technique throughout its chronological evoluti...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
Thermal poling of optical fibres is a well-known technique to create second order nonlinearity insid...
Thermal poling is a well-known technique for inducing second-order nonlinearities in centrosymmetric...
In the early 80s a series of experiments showed that it was possible to induce second harmonic gener...
Thermal poling, a technique to create permanently effective second-order susceptibility in silica op...
Fused silica are common fiber materials which have macroscopic central symmetry without second-order...
The use of thermal poling in vacuum to eliminate the spreading out of the poled regions beyond the b...
Optical poling is a very simple technique for inducing a quadratic nonlinearity in germanium-doped s...
A technique by which the second order nonlinearity of poled silica fibre is significantly increased ...
The second-order nonlinearity profile in thermally poled twin-hole fibre was characterized by second...
Thermal poling of holey fibres is demonstrated for the first time. Non-phase matched second harmonic...
A second-order nonlinearity is induced for the first time in a holey fibre by thermal poling. Non-ph...
A study of first demonstration of thermal poling in holey fibers (HF) was performed. It was seen tha...
Periodic thermal poling of fibers is a promising technique for efficient quasi-phase-matched second-...
This review gives a perspective of the thermal poling technique throughout its chronological evoluti...
The creation of an effective second order nonlinearity via the process of thermal poling in material...
Thermal poling of optical fibres is a well-known technique to create second order nonlinearity insid...
Thermal poling is a well-known technique for inducing second-order nonlinearities in centrosymmetric...
In the early 80s a series of experiments showed that it was possible to induce second harmonic gener...
Thermal poling, a technique to create permanently effective second-order susceptibility in silica op...
Fused silica are common fiber materials which have macroscopic central symmetry without second-order...
The use of thermal poling in vacuum to eliminate the spreading out of the poled regions beyond the b...
Optical poling is a very simple technique for inducing a quadratic nonlinearity in germanium-doped s...
A technique by which the second order nonlinearity of poled silica fibre is significantly increased ...
The second-order nonlinearity profile in thermally poled twin-hole fibre was characterized by second...