Add to ORKGWe analyse the feasibility of using iron-doping in lithium niobate in order to stabilize and permanently fix light-induced integrated structures. General 3D optical interconnections were realized in bulk lithium niobate crystals by means of soliton waveguides exploiting the enhanced photorefractive properties obtainable using specific iron doping. We report an enhancement of the photorefractive properties in doped crystals that can be considered for permanently fixing the integrated circuits. This work opens new directions for realizing permanent self-assembled and self-aligned integrated electro-optic devices and photonic circuits. © 2014 Elsevier B.V. All rights reserved
The spatial solitons can create reversible or irreversible single-mode waveguides in the propagating...
As the level of complexity and sophistication in modern technological applications increases, the le...
The thesis is focussing on the interaction of lithium niobate with UV and ultrafast laser radiation ...
We analyse the feasibility of using iron-doping in lithium niobate in order to stabilize and permane...
In the last decades the electronic data transmission technology has progressively reached its perfor...
In the field of optical signal processing and all-optical integrated devices, photorefractive crysta...
We analyze the mechanisms leading to a highly diffractive fixed hologram in photorefractive Fe-doped...
After the discovery that focused laser pulse is capable to locally change material's refractive inde...
Lithium niobate is a versatile optical material with many applications that result from its wide ran...
In iron-doped lithium niobate and other similar crystals, exposure to light of appropriate wavelengt...
Local doping by Fe in-diffusion in lithium niobate is a powerful technique to create regions of high...
We investigate the applicability of highly reduced lithium niobate samples doped with iron for the u...
The influence of laser illumination on ferroelectric domain engineering, waveguide formation and sur...
International audienceWe report 2D micrometric scale regular optical patterns formation induced by a...
Exposure of the insulating ferroelectric crystal, lithium niobate, to light of the appropriate wavel...
The spatial solitons can create reversible or irreversible single-mode waveguides in the propagating...
As the level of complexity and sophistication in modern technological applications increases, the le...
The thesis is focussing on the interaction of lithium niobate with UV and ultrafast laser radiation ...
We analyse the feasibility of using iron-doping in lithium niobate in order to stabilize and permane...
In the last decades the electronic data transmission technology has progressively reached its perfor...
In the field of optical signal processing and all-optical integrated devices, photorefractive crysta...
We analyze the mechanisms leading to a highly diffractive fixed hologram in photorefractive Fe-doped...
After the discovery that focused laser pulse is capable to locally change material's refractive inde...
Lithium niobate is a versatile optical material with many applications that result from its wide ran...
In iron-doped lithium niobate and other similar crystals, exposure to light of appropriate wavelengt...
Local doping by Fe in-diffusion in lithium niobate is a powerful technique to create regions of high...
We investigate the applicability of highly reduced lithium niobate samples doped with iron for the u...
The influence of laser illumination on ferroelectric domain engineering, waveguide formation and sur...
International audienceWe report 2D micrometric scale regular optical patterns formation induced by a...
Exposure of the insulating ferroelectric crystal, lithium niobate, to light of the appropriate wavel...
The spatial solitons can create reversible or irreversible single-mode waveguides in the propagating...
As the level of complexity and sophistication in modern technological applications increases, the le...
The thesis is focussing on the interaction of lithium niobate with UV and ultrafast laser radiation ...