Add to ORKGContinuous wave ultraviolet laser irradiation at λ = 244 - 305 nm of the +z face of congruent and MgO-doped lithium niobate is observed to inhibit ferroelectric domain inversion directly beneath the illuminated region during subsequent electric field poling. When followed by chemical etching, this effect results in creation of high-spatial-resolution domain-engineered microstructures
The inversion of ferroelectric domains in lithium niobate by a scanning focused ultra-violet laser b...
The influence of illumination on ferroelectric domain engineering in lithium niobate and lithium tan...
We report the formation of directionally-ordered nanoscale surface domains on the +z face of undoped...
Continuous wave ultraviolet (UV) laser irradiation at lambda=244 nm on the +z face of undoped and Mg...
The development of methods for ferroelectric domain engineering in lithium niobate (LN) is of specia...
Continuous wave UV laser (λ=244 nm) irradiation of the +z face of lithium niobate single crystals in...
Ferroelectric domain engineering in lithium niobate (LN) is a subject of extensive research mainly f...
The ability to manipulate the size and depth of poling inhibited domains, which are produced by UV l...
Fabrication of periodically inverted domain patterns in ferroelectric materials such as lithium niob...
Ferroelectric domains are engineered in lithium niobate crystals by scanning strongly absorbed UV la...
The influence of laser illumination on ferroelectric domain engineering, waveguide formation and sur...
We report the realization of high-resolution bulk domains achieved using a shallow, structured, doma...
Single-crystal congruent lithium niobate samples have been illuminated on the +z crystal face by pul...
The thesis is focussing on the interaction of lithium niobate with UV and ultrafast laser radiation ...
UV radiation in the spectral region beyond ~ 320 nm is strongly absorbed by lithium niobate single c...
The inversion of ferroelectric domains in lithium niobate by a scanning focused ultra-violet laser b...
The influence of illumination on ferroelectric domain engineering in lithium niobate and lithium tan...
We report the formation of directionally-ordered nanoscale surface domains on the +z face of undoped...
Continuous wave ultraviolet (UV) laser irradiation at lambda=244 nm on the +z face of undoped and Mg...
The development of methods for ferroelectric domain engineering in lithium niobate (LN) is of specia...
Continuous wave UV laser (λ=244 nm) irradiation of the +z face of lithium niobate single crystals in...
Ferroelectric domain engineering in lithium niobate (LN) is a subject of extensive research mainly f...
The ability to manipulate the size and depth of poling inhibited domains, which are produced by UV l...
Fabrication of periodically inverted domain patterns in ferroelectric materials such as lithium niob...
Ferroelectric domains are engineered in lithium niobate crystals by scanning strongly absorbed UV la...
The influence of laser illumination on ferroelectric domain engineering, waveguide formation and sur...
We report the realization of high-resolution bulk domains achieved using a shallow, structured, doma...
Single-crystal congruent lithium niobate samples have been illuminated on the +z crystal face by pul...
The thesis is focussing on the interaction of lithium niobate with UV and ultrafast laser radiation ...
UV radiation in the spectral region beyond ~ 320 nm is strongly absorbed by lithium niobate single c...
The inversion of ferroelectric domains in lithium niobate by a scanning focused ultra-violet laser b...
The influence of illumination on ferroelectric domain engineering in lithium niobate and lithium tan...
We report the formation of directionally-ordered nanoscale surface domains on the +z face of undoped...