Keywords: B3 لیزرهای جامد; A1. Segregation; A2. Growth from melt; A2. Single crystal growth; B1. Oxides; B3. Scintillators; B3. Solid state lasers;
مقالات ISI B3 لیزرهای جامد (ترجمه نشده)
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Optical study of Tm-doped solid solution (Sc0.5Y0.5)2SiO5 crystal
Keywords: B3 لیزرهای جامد; A1. Characterization; A2. Czochralski method; A2. Single crystal growth; B1. Rare earth compounds; B3. Solid state lasers;
Ca3(VO4)2:Tm3+-A new crystalline medium for 2-μm lasers
Keywords: B3 لیزرهای جامد; A1. Optical microscopy; A1. Absorption; A2. Single crystal growth; A2. Calcium orthovanadate; A2. Czochralski growth; B3. Solid state lasers;
Single crystals with advanced laser properties LiCaAlF6:Ce3+ grown by Bridgman technique
Keywords: B3 لیزرهای جامد; A2. Single crystal growth; A2. Bridgman technique; B3. Solid state lasers; B3. Tunable ultraviolet laser;
Hot-pressed production and laser properties of ZnSe:Fe2+
Keywords: B3 لیزرهای جامد; A1. Recrystallization; A1. Volume defects; A1. Doping; B2. Semiconducting II-VI; B3. Solid state lasers;
Spectroscopic, thermal, and laser properties of disordered garnet Nd:CLTGG crystal
Keywords: B3 لیزرهای جامد; A1. X-ray diffraction; A2. Czochralski method; B3. Laser diodes; B3. Solid state lasers;
Cr doped Ca2GeO4, Ca5Ge3O11 and Li2CaGeO4 single crystals grown by the flux method
Keywords: B3 لیزرهای جامد; A1. Crystal morphology; A1. Defects; A2. Growth from high temperature solutions; A2. Single crystal growth; B1. Germanium compounds; B3. Solid state lasers;
Ca10Li(VO4)7:Nd3+, a promising laser material: growth, structure and spectral characteristics of a Czochralski-grown single crystal
Keywords: B3 لیزرهای جامد; A1. Crystal structure; A1. Defects; A2. Czochralski growth; B1. Vanadates; B3. Solid state lasers
Crystal growth and phase stability of Ln:Lu2O3 (Ln=Ce, Pr, Nd, Sm, Eu, Tb, Dy, Ho, Er, Tm, Yb) in a higher-temperature hydrothermal regime
Keywords: B3 لیزرهای جامد; A2. Hydrothermal crystal growth; A2. Single crystal growth; B1. Oxides; B1. Rare earth compounds; B3. Solid state lasers;
Synthesis, characterization, spectroscopy, and laser operation of SrMoO4 crystals co-doped with Tm3+ and Ho3+
Keywords: B3 لیزرهای جامد; A1. Absorption; A1. Fluorescence properties; A2. Czochralski method; B1. Rare earth ions; B1. Strontium molybdate; B3. Solid state lasers;
Flux growth, structure, and physical characterization of new disordered laser crystal LiNd(MoO4)2
Keywords: B3 لیزرهای جامد; A1. Characterization; A2. Single crystal growth; B1. Rare earth compounds; B3. Solid state lasers
Growth and EPR properties of HoVO4 single crystals
Keywords: B3 لیزرهای جامد; A1. Crystal structure; A2. Czochralski method; A2. Single crystal growth; B1. Vanadates; B2. Magneto-optics materials; B3. Solid state lasers
Crystal growth, characterization of NdTaO4: A new promising stoichiometric neodymium laser material
Keywords: B3 لیزرهای جامد; A1. Characterization; A2. Czochralski method; B1. NdTaO4 crystal.; B3. Solid state lasers;
Float zone growth and spectral properties of Cr,Nd:CaYAlO4 single crystals
Keywords: B3 لیزرهای جامد; A1. Defects; A2. Floating zone technique; B1. Aluminates; B3. Solid state lasers;
The control of mean ionic radius at Y site by Lu co-doping for Ce:LiYF4 single crystals
Keywords: B3 لیزرهای جامد; A1. Segregation; A2. Single crystal growth; B1. Halides; B3. Scintillators; B3. Solid state lasers
Laser-heated pedestal growth of cerium doped calcium scandate crystal fibers
Keywords: B3 لیزرهای جامد; A2. Laser heated pedestal growth; B1. Oxides; B2. Phosphors; B3. Solid state lasers
Laser heated pedestal growth of potassium lithium niobate for UV generation
Keywords: B3 لیزرهای جامد; A1. Solid solutions; A2. Laser heated pedestal growth; B1. Niobates; B2. Nonlinear optic materials; B3. Solid state lasers
Growth and laser action of Yb: YVO4 crystals with low Yb doping concentration
Keywords: B3 لیزرهای جامد; A1. Crystal structure; A2. Czochralski method; B1. Vanadates; B3. Solid state lasers;
Crystal growth via metal–organic vapor phase epitaxy of quantum-cascade-laser structures composed of multiple alloy compositions
Keywords: B3 لیزرهای جامد; A3. Metal-organic vapor phase epitaxy; A3. Superlattices; B2. Semiconducting III–V materials; B3. Solid state lasers
Float zone growth and anisotropic spectral properties of Nd:LaVO4 single crystals
Keywords: B3 لیزرهای جامد; A2. Floating zone technique; B1. Vanadates; B3. Solid state lasers
Revisiting the Hydrothermal growth of YAG
Keywords: B3 لیزرهای جامد; A2. Hydrothermal crystal growth; A3. Hydrothermal epitaxy; B1. Oxides; B3. Solid state lasers
InP/AlGaInP quantum dot laser emitting at 638 nm
Keywords: B3 لیزرهای جامد; A1. Low dimensional structures; A3. Metalorganic vapor phase epitaxy; B2. Semiconducting III–V materials; B2. Semiconducting indium phosphide; B3. Solid state lasers
Synthesis and growth of materials for solid state lasers: Nd:YLF and Nd:LLW single crystal fibers
Keywords: B3 لیزرهای جامد; A2. Micro pulling-down fiber growth; B1. Fluorides; B1. Tungstates; B3. Solid state lasers
Yb3+:YAG growth with controlled doping distribution using modified horizontal direct crystallization
Keywords: B3 لیزرهای جامد; A2. Growth from melt; B1. Oxides; B2. Dielectric materials; B3. Solid state lasers
Growth and spectroscopic properties of Yb:Lu1.5Y1.5Al5O12 mixed crystal
Keywords: B3 لیزرهای جامد; A1. Spectral properties; A2. Czochralski method; B1. Yttrium compounds; B3. Solid state lasers
Crystal growth and spectroscopic properties of erbium doped Lu2SiO5
Keywords: B3 لیزرهای جامد; A1. Doping; A2. Czochralski method; B1. Oxides; B3. Solid state lasers
Crystal growth and spectroscopic properties of Yb:CaYAlO4 single crystal
Keywords: B3 لیزرهای جامد; A1. Spectral properties; A2. Czochralski method; B1. Yttrium compounds; B3. Solid state lasers
Hydrothermal growth of Ti:sapphire (Ti3+: Al2O3) laser crystals
Keywords: B3 لیزرهای جامد; 81.10.Dn; 42.70.Hj; 61.66.FnA2. Hydrothermal technique; B1. Oxides; B1. Ti:sapphire; B3. Solid state lasers
The reproducibility and transferability of a THz quantum cascade laser design between two MBE growth manufacturers’ platforms
Keywords: B3 لیزرهای جامد; 42.55.Px; 78.45.+h; 78.55.Cr; 81.15.HiA1. Intersubband; A1. Low-dimensional structures; A3. Molecular beam epitaxy; B2. semiconducting III–V materials; B3. Quantum cascade lasers; B3. Solid state lasers
Growth, refined structural and spectroscopic characteristics of Tm3+-doped NaGd(WO4)2 single crystals
Keywords: B3 لیزرهای جامد; 42.70.Hj; 61.50.Ah; 81.10.Fq; A1. Crystal structure; A2. Czochralski method; B1. Thulium compounds; B1. Tungstates; B3. Solid state lasers;
Growth and spectral properties of Er:Gd2SiO5 crystal
Keywords: B3 لیزرهای جامد; 42.70.Hj; 81.10.Fq; 87.64.NiA1. Doping; A2. Growth from melt; B1. Gadolinium compounds; B3. Solid state lasers
Judd–Ofelt analysis of spectroscopic properties of Tm3+, Ho3+ doped GdVO4 crystals
Keywords: B3 لیزرهای جامد; A1. Polarized absorption; A1. Doping; A2. Czochralski method; B1. Thulium compounds; B3. Solid state lasers; B3. Eye-safe laser
Growth, morphology and mechanism of rare earth vanadate crystals under mild hydrothermal conditions
Keywords: B3 لیزرهای جامد; 81.10.−h; 42.70.Hj; 64.70Dv; 81.10.AjA1. Morphological stability; A2. Hydrothermal crystal growth; A2. Single crystal growth; B1. Rare earth compounds; B1. Vanadates; B2. Phosphors; B3. Solid state lasers
Crystal growth and optical absorption of pure and Ti, Mn-doped MgAl2O4 spinel
Keywords: B3 لیزرهای جامد; 61.10.Nz; 81.10.Fq; 42.70.HjA1. Absorption; A2. Crystal growth from melt; A2. Manganese; A2. Micro-pulling-down method; A2. Titanium; B1. Spinel; B3. Solid state lasers
Growth and characterization of single-crystal Er3+:KPb2Cl5 as a mid-infrared laser material
Keywords: B3 لیزرهای جامد; 42.70.Hj; 81.10.FqA1. Doping; A1. Nucleation; A1. Phase equilibria; A2. Growth from melt; B1. Halides; B3. Solid state lasers
Growth and thermodynamic characterization of pure and Er-doped KPb2Cl5
Keywords: B3 لیزرهای جامد; 42.70.Hj; 64.70.Kb; 81.10.Fq; 82.60.Fa; A1. Heat capacities and heats of phase transition; A1. Phase equilibria; A2. Bridgman technique; B1. Halides; B3. Solid state lasers;
Growth and diode-pumped CW lasing of Nd:KLu(WO4)2
Keywords: B3 لیزرهای جامد; A2. Top seeded solution growth; B1. Tungstates; B3. Solid state lasers;
Growth of composite sapphire/Ti:sapphire by the hydrothermal method
Keywords: B3 لیزرهای جامد; 81.10.Dn; 42.70.Hj; 42.60.âv; A1. X-ray diffraction; A2. Growth from solutions; A2. Hydrothermal crystal growth; B1. Oxides; B1. Ti:sapphire; B2. Laser materials; B3. Solid state lasers;
High-quality GaInAs/AlAsSb quantum cascade lasers grown by molecular beam epitaxy in continuous growth mode
Keywords: B3 لیزرهای جامد; A3. Molecular beam epitaxy; B1. Antimonides, B1. Arsenides; B2. Semiconducting III-V materials; B3. Solid state lasers;
Growth and characterization of (Tm,Y)Al3(BO3)4 and (Yb,Y)Al3(BO3)4 crystals
Keywords: B3 لیزرهای جامد; 61.66.F; 81.10.Dn; A1. Crystal morphology; A2. Growth from high temperature solutions; A2. Single crystal growth; B1. Borates; B2. Nonlinear optic materials; B3. Solid state lasers;
Crystal growth technology CGT for energy: saving energy and renewable energy
Keywords: B3 لیزرهای جامد; B1. Nitrides; B2. Nonlinear optic materials; B2. Superconducting materials; B3. Light emitting diodes; B3. Solar cells; B3. Solid state lasers;