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HEO, JONG (허종)
Div. of Advanced Nuclear Engineering(첨단원자력공학부)
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SPECTROSCOPY:21||NANOCRYSTALS:20||IONS:17||EMISSION:16||LASER:14||OPTICALPROPERTIES:12||TM3+:11||MUM:11||FLUORESCENCE:11||ENERGYTRANSFER:10||METAL OXIDE GLASSES:9||ABSORPTION:9||SPECTRA:9||PHOTOLUMINESCENCE:8||MATRIX:8||CRYSTALS:7||RAMAN:7||MULTIPHONON RELAXATION:7||AMPLIFIER:7||Luminescence:7||LUMINESCENCE:6||GAS GLASSES:6||UPCONVERSION:6||TRANSITION:6||rareearths in glasses:6||luminescence:6||MUM EMISSION:6||Glasses:5||OXIDE GLASSES:5||Photoluminescence:5||chalcohalides:5||CONFINEMENT:5||CHALCOGENIDE GLASSES:5||DY3+:5||GROWTH:5||Glass:5||RAREEARTH IONS:5||FIBER AMPLIFIER:4||Xray absorption:4||PR3+/ER3+DOPED SELENIDE GLASSES:4||GE:4||EXCITATION:4||INTENSITIES:4||SULFIDE GLASSES:4||GAIN:4||MECHANISM:4||FLUORIDE GLASSES:4||optical properties:4||1.3MUM:4||PR3+:4||1.3 MUM:4||PBOBI2O3GA2O3 GLASSES:4||FIBER:4||Optical properties:3||ER3+:3||FLUORIDE FIBER LASER:3||Absorption:3||NANOPARTICLES:3||TM3+ IONS:3||Color:3||Light emission:3||PbS quantum dots:3||MULTIPHONON:3||Color rendering index:3||1.48MUM:3||ROOMTEMPERATURE:3||Optical glass:3||shortrange order:3||RELAXATION:3||THORIUM FLUORIDE GLASS:3||Nanocrystals:3||Quantum dots:3||MECHANISMS:3||ABSORPTION FINESTRUCTURE:3||EU3+:3||glasses:3||CERAMICS:3||XRAYABSORPTION:3||Phosphors:3||VITRIFICATION:3||DEPENDENCE:3||AMPLIFICATION:3||FLUORIDE GLASS:3||TRANSITIONS:3||DOPED GLASSES:2||structure:2||SE2():2||Infrared spectroscopy:2||MICROCRYSTALLITES:2||BANDGAP:2||OPTICALFIBER AMPLIFIERS:2||waste disposal:2||TEMPERATURE:2||Optical spectroscopy:2||Photo luminescence spectrum:2||Glass transition:2||Se:2||Color centers:2||chalcogenides:2||CRYSTALLIZATION:2||Glass ceramics:2||PBS:2||SILICATEGLASSES:2||ZIRCONIUM:2||Silicates:2||White light emitting diodes:2||Optical materials/properties:2||AG NANOPARTICLES:2||Energy transfer:2||FILMS:2||NONLINEARITY:2||YB:2||FIBERS:2||Light emitting diodes:2||RAREEARTHS:2||YB3+:2||Chalcohalide glass:2||TELLURITE GLASSES:2||1.47 MUM:2||fly ash:2||FINESTRUCTURE:2||FIBER AMPLIFIERS:2||M EMISSION PROPERTIES:2||CDSE QUANTUM DOTS:2||SOLIDS:2||TELLURITE:2||vitrification:2||AMPLIFIERS:2||STATES:2||ENERGY:2||FREQUENCY UPCONVERSION:2||Europium:2||PARTICLES:2||SYSTEM:2||TB3+:2||RAMANSPECTRA:2||COORDINATION:2||NANOCLUSTERS:2||ELECTRON:2||Upconversion:2||Rare earths:2||Borosilicates:2||GOLD:2||CALCIUM ALUMINATE GLASSES:2||EMISSION PROPERTIES:2||Chalcohalide glasses:2||ALUMINOSILICATE GLASSES:2||DOPED FIBER AMPLIFIER:2||IMMOBILIZATION:2||QUANTUM DOTS:2||absorption:2||CLUSTERS:2||SODIUMBORATE GLASSES:2||AU:2||TM3+:2||incineration:2||GEAS(OR GA)S GLASSES:2||WATER:2||ELECTROLUMINESCENCE:2||Sintering:2||glass ceramics:1||sewage sludge fly ash:1||GENERATION:1||Optical material:1||OXYFLUORIDE GLASSCERAMICS:1||EXCHANGE:1||SOLUBILITY:1||MidIR fluorescence:1||ER:1||Zscan:1||SULFIDE GLASS:1||Nonlinear optics:1||STRUCTURALPROPERTIES:1||chalcohalide glasses:1||emission properties:1||S GLASSES:1||D. glassceramics:1||fluorescence:1||RELAXATION PHENOMENA:1||NEAREDGE STRUCTURE:1||PR3+DOPED FLUORIDE FIBER:1||RAREEARTH:1||BONDVALENCE PARAMETERS:1||HIGHEFFICIENCY:1||LIGHTSCATTERING:1||Local heating:1||FTIR measurements:1||DIFFRACTION:1||UPCONVERSION LASER:1||PLASMONS:1||NEODYMIUM LASERS:1||Measurement techniques:1||Liquid crystal display(LCD):1||Silica:1||Melting:1||Disposal sites:1||Glass composites:1||RANGE:1||Extended Xray absorption fine structures:1||SATURABLE ABSORBER:1||BOROSILICATE GLASS:1||INFRAREDEMISSION:1||Thermal treatment:1||FLUOROZIRCONATE GLASSES:1||PR:1||nanocrystals:1||PERFORMANCE:1||OPTICAL GAIN:1||LIGHT:1||Oxyfluoride glassceramics:1||Blue upconversion:1||Fluorescence quenching:1||2NDORDER:1||Raman spectroscopy:1||local structure:1||MODES:1||INDENTATION:1||crystallization:1||SATURATION:1||RAREEARTH SULFIDE:1||VIBRATIONALSPECTRA:1||DENSITY:1||OSCILLATION:1||CONCRETE:1||SILICA GLASS:1||thermal poling:1||RED:1||Glass transition temperature:1||REFRACTIVEINDEX:1||Color coordination:1||Color coordinates:1||High color rendering index:1||Radioactivity:1||Tellurium compounds:1||Tellurite glass:1||Glass bonding:1||Diodes:1||Color rendering:1||X ray spectroscopy:1||Diffusion distance:1||Energy dispersive X ray spectroscopy:1||GLASS ALTERATION KINETICS:1||CORROSION:1||DIFFUSION:1||Silver clusters:1||INCINERATION:1||EFFECTIVE IONICRADII:1||CHALCOGENIDE:1||CSBR:1||GALLIUM:1||LAYERS:1||Dualband photoluminescence:1||Broadband photoluminescence:1||Nonlinear optics:1||EELS:1||PHASE:1||PbS:1||Ag:1||TE:1||FLUORIDE FIBER AMPLIFIER:1||phonon side band:1||kinetics:1||nucleation:1||alkali halides:1||Eu3+:1||glass:1||2.7 MUM:1||TETRAHEDRAL COORDINATION:1||CR KEDGE:1||EDGE:1||IMPURITIES:1||STRUCTURAL APPROACH:1||NMR:1||HEAVY METAL OXIDE GLASSES:1||GASCSBR:1||TEM/STEM:1||quantum wells:1||PRODUCTS:1||3DIMENSIONAL DISPLAY:1||EXCITED STATES:1||OPTICALFIBER:1||TM3+DOPED TELLURITE GLASSES:1||ENERGYTRANSFER PROCESS:1||LONEPAIR:1||POLYMER:1||STEM/TEM:1||Oxide glasses:1||Selenide glass:1||Dy3+:1||Wide color gamut:1||Low sintering temperature:1||Low temperatures:1||Silicate:1||PASSIVEMODE LOCKING:1||CARRIER DYNAMICS:1||crystal phases:1||upconversion:1||Rare earth:1||SOLARCELLS:1||SURFACEPLASMONS:1||COLLOIDS:1||ULTRAFAST RESPONSE:1||OXYFLUORIDE GLASSES:1||Rareearth ions:1||Chalcogenides:1||ZnSe:1||OH:1||Glass ceramic:1||REFRACTION:1||NANOCOMPOSITES:1||DOPED FIBERS:1||SPECTROSCOPIC ANALYSIS:1||D. glass ceramic:1||chalcohalide:1||FLUOROZIRCONATE FIBER:1||WAVEGUIDES:1||PHOSPHATEGLASSES:1||GES GLASSES:1||wires and dots:1||oxide glasses:1||ENERGYGAP:1||SLAG:1||chalcogenide glasses:1||defects:1||GLASSES:1||RAYABSORPTION SPECTROSCOPY:1||DURABILITY:1||Tebased chalcogenide glasses:1||Quantum wells, wires and dots:1||Chalcogenide glass:1||Optical materials:1||Metallic elements:1||Nonbridging oxygen:1||Radioactive iodine:1||Color rendering properties:1||SULFIDE QUANTUM DOTS:1||Ions:1||Lead chalcogenides:1||IONEXCHANGERESINS:1||SURROGATE:1||Solar cell efficiency:1||Infrared and Raman spectroscopy:1||POLARIZABILITY:1||FEMTOSECOND:1||GA:1||Glass formation:1||GeGaS glass:1||SM2+:1||hole burning:1||ERBIUM:1||EXAFS ANALYSIS:1||COMPLEXES:1||MINERALS:1||TM3+/HO3+:1||HYDROXYAPATITE:1||FLUOROZIRCONATE FIBER LASERS:1||CONTINUOUSWAVE OSCILLATION:1||Photobrightening:1||HYDRATION:1||SOLIDWASTE INCINERATOR:1||fibers and waveguides:1||chalcohatides:1||second harmonic generation:1||Raman scattering spectra:1||Blue emission:1||Rareearth doping:1||DOPED CHALCOGENIDE GLASSES:1||SE:1||SILICA:1||Lasermatter interactions:1||MIDINFRARED LUMINESCENCE:1||Liquid crystal displays:1||Green phosphor:1||Heavy metal elements:1||Iodine:1||Sequestration:1||Extended X ray absorption fine structure spectroscopy:1||Nucleation and growth:1||LONGTERM BEHAVIOR:1||SEMICONDUCTOR NANOCRYSTALS:1||SELENIUM:1||EFFICIENCY:1||Nd3+:1||Far infrared transmitting glasses:1||SPACE:1||Glassceramics:1||Thirdorder optical nonlinearity:1||Thulium ions:1||SPECTROSCOPIC PROPERTIES:1||EFFICIENT FREQUENCY UPCONVERSION:1||ER3+:1||COMPOSITIONAL DEPENDENCE:1||GALLATE GLASSES:1||THULIUM:1||ABSOLUTE RAMAN INTENSITIES:1||LASER MATERIALS:1||optical materials and properties:1||FLUOROINDATE GLASSES:1||LANTHANIDES:1||Chalcogenide glasses:1||CDSE:1||PBO:1||Atomic absorption:1||Optical fiber:1||White emissions:1||Mixing:1||Radioactive waste disposal:1||Vitrification:1||ACTINIDES:1||DISPOSAL:1||Electricfield assistance:1||CSBR GLASSES:1||EXAFS:1||PBSE NANOCRYSTALS:1||Heavymetal oxides:1||2PHOTON ABSORPTION:1||Inhomogeneous distribution:1||PBF2:1||ZSCAN:1||Optical band gap:1||FRACTURETOUGHNESS:1||incinerator fly ash waste:1||EU3+DOPED AL2O3SIO2 GLASS:1||BLUE UPCONVERSIONS:1||STATE:1||TM:1||BRILLOUIN:1||BI2O3:1||nanocrystals:1||OXYHALIDE TELLURITE GLASSES:1||UPCONVERSION LUMINESCENCE:1||BLUE:1||nonlinear optics:1||infrared properties:1||PBGEO3PBF2CDF2:1||Quantum confinement:1||PBSE:1||SATURABLE ABSORBERS:1||Nanoparticles, colloids and quantum structures:1||MidIR:1||POWER:1||VISCOSITY:1||Hightemperature melting:1||Fluorescence:1||Luminous efficacy:1||Red fluorescent:1||X ray absorption:1||Ag nanoparticles:1||PBS NANOCLUSTERS:1||Infrared upconversion emission:1||Oxyfluoride:1||PbSe quantum dots:1||Quantum confinement effect:1||SOLAR CONCENTRATORS:1||FLUORESCENCE LIFETIME:1||LANTHANIDE:1||RESONANCE:1||Tm3+:1||INDUCED 2NDHARMONIC GENERATION:1||Midinfrared:1||Tellurite glasses:1||METAL NANOPARTICLES:1||ALUMINOSILICATE:1||D. glasses:1||europium in glass:1||persistent spectral hole burning:1||XANES:1||FLUORESCENCE DYNAMICS:1||CROSSSECTION MEASUREMENTS:1||NEAREDGE:1||RAY:1||PBOBIO1.5GAO1.5 GLASSES:1||PARAMETERS:1||Photodarkening:1||FLYASH:1||STRENGTH:1||optical spectroscopy:1||GERMANOSILICATE GLASS:1||electron spin resonance:1||EU3+ IONS:1||AG:1||NANORODS:1||ORIGIN:1||Neodymium compounds:1||Zinc oxide:1||Color tunable:1||Product consistency test:1||Energy dispersive spectroscopy:1||Precipitation kinetics:1||Semiconductor quantum dots:1||DISSOLUTION KINETICS:1||
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