New Trends in Lithium Niobate From Bulk to Nanocrystals
New Trends in Lithium Niobate From Bulk to Nanocrystals
English[eng]
9783040000000
lithium niobate||small polaron hopping||transient absorption||mode-locked laser||nonlinear mirror mode locking||lithium tantalate||crystal structure||chemical composition||ferroelectrics||second harmonic generation||lead-free piezoelectrics||intrinsic defects||extrinsic defects||elemental doping||ferromagnetism||diluted-magnetic oxides||LiNbO3||LiTaO3||oxide crystals||lanthanides||luminescence||LNOI||ferroelectric domains||domain-wall conduction||AFM||thin film lithium niobate||TFLN||x-cut LN||domain walls||piezoresponse force microscopy||second-harmonic generation||Raman scattering||electro-optics||whispering gallery resonators||polarons||photorefractivity||Marcus-Holstein’s theory||Monte Carlo simulations||strontium titanate||self-trapped electrons||oxygen vacancies||defects||impurity||intrinsic defect||paramagnetic ion||electron paramagnetic resonance||electron nuclear double resonance||lithium vacancy||lithium||niobate||epitaxy||thin film||liquid phase epitaxy||molecular beam epitaxy||sputtering||pulsed laser deposition||chemical vapor deposition||lithium niobate-tantalate||piezoelectric||acoustic||high-temperature||sensor||Q-factor||BAW resonator||parametric down-conversion||photon-pair generation||extended phase matching||microring resonator||varFDTD||lithium tantalate thin film||electro-optical devices||lattice location||radiation damage||ion beam analysis||hyperfine interactions||charge localization||lattice deformation||optical response||density-functional theory||Bethe-Salpeter equation||nanoparticles||nanopowders||X-ray diffraction||Raman spectroscopy||temperature dependence of electroconductivity||bipolarons||defect structure and generation||Li diffusion||bulk crystals||thin films||nanocrystals
English[eng]
9783040000000
lithium niobate||small polaron hopping||transient absorption||mode-locked laser||nonlinear mirror mode locking||lithium tantalate||crystal structure||chemical composition||ferroelectrics||second harmonic generation||lead-free piezoelectrics||intrinsic defects||extrinsic defects||elemental doping||ferromagnetism||diluted-magnetic oxides||LiNbO3||LiTaO3||oxide crystals||lanthanides||luminescence||LNOI||ferroelectric domains||domain-wall conduction||AFM||thin film lithium niobate||TFLN||x-cut LN||domain walls||piezoresponse force microscopy||second-harmonic generation||Raman scattering||electro-optics||whispering gallery resonators||polarons||photorefractivity||Marcus-Holstein’s theory||Monte Carlo simulations||strontium titanate||self-trapped electrons||oxygen vacancies||defects||impurity||intrinsic defect||paramagnetic ion||electron paramagnetic resonance||electron nuclear double resonance||lithium vacancy||lithium||niobate||epitaxy||thin film||liquid phase epitaxy||molecular beam epitaxy||sputtering||pulsed laser deposition||chemical vapor deposition||lithium niobate-tantalate||piezoelectric||acoustic||high-temperature||sensor||Q-factor||BAW resonator||parametric down-conversion||photon-pair generation||extended phase matching||microring resonator||varFDTD||lithium tantalate thin film||electro-optical devices||lattice location||radiation damage||ion beam analysis||hyperfine interactions||charge localization||lattice deformation||optical response||density-functional theory||Bethe-Salpeter equation||nanoparticles||nanopowders||X-ray diffraction||Raman spectroscopy||temperature dependence of electroconductivity||bipolarons||defect structure and generation||Li diffusion||bulk crystals||thin films||nanocrystals