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Direct comparison of Yb3+:CaF2 and heavily doped Yb3+:YLF as laser media at room temperature.High efficiency laser action of 1% at. Yb3+:2O3 ceramic.Experimental evidence of a nonlinear loss mechanism in highly doped Yb:LuAG crystal.Characterization of the lasing properties of a 5%Yb doped Lu₂SiO₅ crystal along its three principal dielectric axes.First laser emission of Yb<sub>0.15</sub>:(Lu<sub>0.5</sub>Y<sub>0.5</sub>)<sub>3</sub>Al<sub>5</sub>O<sub>12</sub> ceramics.Spectroscopic and laser characterization of Yb<sub>0.15</sub>:(Lu<sub>x</sub>Y<sub>1-x</sub>)<sub>3</sub>Al<sub>5</sub>O<sub>12</sub> ceramics with different Lu/Y balance.Optical, Structural and Paramagnetic Properties of Eu-Doped Ternary Sulfides ALnS₂ (A = Na, K, Rb; Ln = La, Gd, Lu, Y).Tetranuclear Copper(I) Iodide Complexes: A New Class of X-ray Phosphors.LuAG:Pr3+-porphyrin based nanohybrid system for singlet oxygen production: Toward the next generation of PDTX drugs.X-ray Inducible Luminescence and Singlet Oxygen Sensitization by an Octahedral Molybdenum Cluster Compound: A New Class of Nanoscintillators.Preparation and luminescence properties of ZnO:Ga - polystyrene composite scintillator.Czochralski Growth and Properties of Scintillating CrystalsEuropium and Sodium Codoped LiCaAlF$_{6}$ Scintillator for Neutron DetectionChallenge and study for developing of novel single crystalline optical materials using micro-pulling-down methodOptical properties of BaY2F8:Ce3+Fabrication and luminescence properties of single-crystalline, homoepitaxial zinc oxide films doped with tri- and tetravalent cations prepared by liquid phase epitaxyTemperature Dependence of Scintillation Properties of Bright Oxide Scintillators for Well-LoggingCrystal Growth of Na-Co-Doped Ce:LiCaAlF6Single Crystals and Their Optical, Scintillation, and Physical PropertiesOptimization of crystals for applications in dual-readout calorimetryNew crystals for dual-readout calorimetryScintillation characteristics of PbWO4 single crystals doped with Th, Zr, Ce, Sb and Mn ionsSignificant improvement of PbWO4 scintillating crystals by doping with trivalent ionsImprovement in radiation hardness of PbWO4 scintillating crystals by La-dopingImprovement of several properties of lead tungstate crystals with different doping ionsLead tungstate (PbWO4) scintillators for LHC EM-calorimeterCe 3+ multicenters in selected garnets, perovskites, and glassesRare-earth antisites in lutetium aluminum garnets: Influence on lattice parameter and Ce3+ multicenter structureSlow Relaxation, Confinement, and SolitonsNeeds, Trends, and Advances in Inorganic ScintillatorsAfterglow and Quantum Tunneling in Ce-Doped Lutetium Aluminum GarnetComparative Study of GdLu2Al2Ga3O12:Ce and GdY2Al2Ga3O12:Ce Scintillation Crystals for $\gamma$ -Ray DetectionGrowth and Luminescent Properties of Cs2HfCl6 Scintillators Doped With Alkaline Earth MetalsPhotoinduced Preparation of Bandgap-Engineered Garnet PowdersScintillation Characteristics of GAGG:Ce Single-Crystalline Films Grown by Liquid Phase EpitaxyEffect of Ga content on luminescence and defects formation processes in Gd3(Ga,Al)5O12:Ce single crystalsLuminescence and scintillation characteristics of (Gd x Y 3-x )Al 2 Ga 3 O 12 :Ce (x = 1,2,3) single crystalsMeasurement of non-equilibrium carriers dynamics in Ce-doped YAG, LuAG and GAGG crystals with and without Mg-codoping2 inch size Czochralski growth and scintillation properties of Li + co-doped Ce:Gd 3 Ga 3 Al 2 O 125d-4f Radioluminescence in Pr3+-doped K3YxLu1-x (PO4)2Alpha spectroscopy by the Φ25 mm×0.1 mm YAlO 3 :Ce scintillation detector under atmospheric conditions
P50
Q30882800-C9AAD321-F86E-4DF0-AC2D-860EF2D1808EQ34434206-349816B8-76A4-4973-8241-9525A0B5B64CQ35129716-BCAB542C-4400-41B6-92FE-C1E7EDF3E1AAQ35663492-F9729E98-C566-4873-A140-9724AD807459Q36006099-C0B70D76-1D2A-42E2-AC36-E296AA0166FFQ36099104-087CF16C-AB04-4112-B3BA-54499161DC90Q42228341-2FB5C6ED-08F3-47B0-8136-31888115222BQ48322889-42D7BDEE-911E-4E3A-AA80-837D59409A98Q50056105-715F1AE1-5C94-4FD3-8E82-4A7533610856Q50433749-DC645204-E11F-469D-9C78-96DFEEDFD616Q52981517-C508D01C-E0CF-4304-A2FC-568B638D47F7Q54087344-75CB81E7-E634-4DC5-A383-E2E3E90713BCQ56551658-C97EF91D-3CBF-43A4-B76B-C8F014C95E1FQ56829596-AED276A5-3993-461E-AECB-D8DD6519478BQ57700466-BCFE5379-F84F-44DD-B62D-891C2F68CE51Q57764930-89CCA87A-7E93-47F4-9F02-46FE5BAFC34AQ58357550-C3895105-0AEB-4913-8578-9F0B49508A5CQ58357568-AED5E810-E165-4B37-9360-8230A529B46BQ58448457-C73C8E7D-9626-4EA6-B521-A894F7AB7B62Q58448462-6202764E-141B-4053-A514-89A21F782D9BQ58462105-F63F7246-304D-4B55-9FCD-6B283CBC45B6Q58462112-F76446F1-3EB5-4524-AEE8-BCFD6FC3C6E6Q58462113-9F44BB9D-A362-4551-ACC3-381B3AE62D70Q58462115-E3FFC840-C235-4EF0-B4AE-9DCB65D124A2Q58462116-F0F636AB-F1CF-4EF4-8183-0CCA9BAF08E6Q58827756-2BB21ABB-0E8C-4CE0-9D7C-30473FF9BD69Q58827765-283504D8-4855-4B09-886C-41826003BD85Q59473161-D9AF9838-243C-495C-A2A2-B437D2602F2EQ59716912-F01A08EB-9AA5-4710-B8AB-18ED876249C3Q59880130-973E689A-7F11-40E3-8386-0C36B0CA1487Q59880133-07B1244D-1141-4C55-8E22-7C714B371669Q59880138-A0C1A1C8-BA03-4B93-8FC2-F2EAF1FD523AQ59880144-D5CB8D24-745D-4DD8-8807-D03921407F19Q59880147-8AD6664C-70F2-490B-BED6-5CE171CC78D5Q59880149-85367A8A-EADD-44AB-9FB3-C2552E14E6EDQ59880151-D4CA6122-3C3C-466A-B46A-A27247FB1120Q59880156-06B7980D-EBC7-43FF-A6C4-9982EC6DE58AQ59880161-5873084F-79E1-4E7A-9497-FB6C6ECEB026Q59880165-A323C0BE-7ADC-4F0A-9618-77815660837AQ59880169-118AB3DC-2A29-4DAB-8C49-DDFB6E1778AE
P50
description
forsker
@nb
fyzik, optik
@cs
onderzoeker uit Tsjechië
@nl
researcher
@en
հետազոտող
@hy
name
M. Nikl
@ast
M. Nikl
@nl
M. Nikl
@sl
Martin Nikl
@br
Martin Nikl
@co
Martin Nikl
@cs
Martin Nikl
@da
Martin Nikl
@de
Martin Nikl
@en
Martin Nikl
@es
type
label
M. Nikl
@ast
M. Nikl
@nl
M. Nikl
@sl
Martin Nikl
@br
Martin Nikl
@co
Martin Nikl
@cs
Martin Nikl
@da
Martin Nikl
@de
Martin Nikl
@en
Martin Nikl
@es
altLabel
M. Nikl
@en
prefLabel
M. Nikl
@ast
M. Nikl
@nl
M. Nikl
@sl
Martin Nikl
@br
Martin Nikl
@co
Martin Nikl
@cs
Martin Nikl
@da
Martin Nikl
@de
Martin Nikl
@en
Martin Nikl
@es
P106
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7102134851
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P496
0000-0002-2378-208X
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P7859
viaf-215390122