Ident. | Authors (with country if any) | Title |
---|
000088 |
| Synthesis and third-order optical nonlinearities of In2S3 quantum dots glass |
000106 |
| Spectroscopic properties of near-stoichiometric In:Er:LiNbO3 crystals |
000539 |
| Experimental comparison of characteristics of magnetic-field-enhanced InAs and InSb Dember terahertz emitters pumped at 1550 nm wavelength |
000702 |
| Sub-picosecond pulse generation using hybrid silicon and GaInP waveguides |
000768 |
| Optical bistability in GaInAsP/InP coupled-circular resonator microlasers |
000A80 |
| Optical bistability in InP/InAlGaAs multi-quantum-well semiconductor ring lasers |
000B15 |
| Intracavity Second Harmonic Generation Characteristics of Semiconductor Disk Laser |
000D71 |
| Photorefractive properties of optical waveguides in Fe:LiNbO3 crystals produced by O3+ ion implantation |
000D88 |
| Optical bistability in InP/GaInAsP equilateral- triangle-resonator microlasers |
000E40 |
| Highly efficient four-wave mixing via intersubband transitions in InGaAs/AlAs coupled double quantum well structures |
000E49 |
| Growth and photorefractive properties of near-stoichiometric In:Fe:Cu:LiNbO3 crystals |
000F94 |
| Third-order nonlinearities in GeSe2-In2Se3-CsI glasses for telecommunications applications |
001047 |
| SBS slow light using a novel optical fibre doped with nano-particles |
001098 |
| Many body interactions and dynamic shift of the absorption resonance wavelength in all-optical polarization switching of InGaAs(P) MQWs |
001155 |
| Enhancement of nonvolatile blue photorefractive properties in LiNbO3:In:Fe:Cu crystals |
001254 |
| Ultrafast all-optical polarization switching based on "virtual excitation" of InGaAs(P) MQWs |
001297 |
| Structure dependence of ultrafast third-order optical nonlinearity for GeS2-In2S3-CsI chalcohalide glasses |
001375 |
| Improvement on the photorefractive performance by the insertion of a SiO2 blocking layer |
001403 |
| Eye-safe compact scanning LIDAR technology |
001446 |
| Effect of in ions on photorefractive properties in Fe:In:LiNbO3 crystals |
001460 |
| Defect solitons in optically induced one-dimensional photonic lattices in LiNbO3:Fe crystal |
001474 |
| Characterization of Novel Nonlinear Optical Polymeric Film Fabricated From Dye Doped PMMA |
001550 |
| Spectral properties and energy transfer of Yb,Er: GdVO4 crystal |
001578 |
| Optical-limiting and photophysical properties of two soluble chloroindium phthalocyanines with α- and β-alkoxyl substituents |
001633 |
| Experimental study of NRZ format wavelength conversion using electroabsorption modulator |
001712 |
| The effect of In3+ doping on optical properties of Fe:LiNBO3 crystals |
001760 |
| Piezoelectric field-dependent optical nonlinearities induced by interband transition in InGaN/GaN quantum well |
001979 |
| Nonlinearity in power-current characteristics of narrow-pulse-driven AlGaInP laser diodes |
001993 |
| Influence of post-growth treatment on the holographic storage properties of In:Fe:LiNbO3 |
001B32 |
| TDHF-SOS treatments on linear and nonlinear optical properties of III-V semiconductor clusters (Ga3As3, Ga3Sb3, In3P3, In3As3, In3Sb3) |
001B87 |
| Investigation on photorefractive properties of In:Mn:Fe:LiNbO3 |
001C43 |
| An increase of photorefractive sensitivity in In:LiNbO3 crystal |
001F51 |
| Enhancement of second harmonic generation and photocurrent generation of a novel stilbazolium dye dimer in Langmuir-Blodgett monolayer films |
002069 |
| Second harmonic generation investigation of indium tin oxide thin films |
002080 |
| Photorefractive light-induced scattering in doped lithium niobate crystals |
002362 |
| Preparation and optical properties of a SiO2 film containing In0.2Ga0.8As nanocrystals by radio-frequency magnetron co-sputtering |
002498 |
| Optical limiting properties of In2O3 nanoparticles under cw laser illumination |
002754 |
| Triply resonant enhancement of third-order nonlinear optical susceptibility in compositionally asymmetric coupled quantum wells |
002786 |
| Spectroscopic studies of the interaction of C60 and C70 films with metal substrates |