"Absorption"@en . "Scintillator materials"@en . "Detector design"@en . "Philippe Veber" . "B2 Scintillator materials"@en . "Crystal growth"@en . . "Color"@en . "A1 Computer simulation"@en . . "Single crystal"@en . "Crystallography"@en . . "Lithium compounds"@en . "Bolometer"@en . "Philippe" . "Lasers"@en . "Crystallization"@en . "Crystal scintillator"@en . "Performance"@en . "Molybdenum oxygen"@en . "Compression"@en . "Radiopurity"@en . "85899940fbfce2eb29a05fe217945905" . "Solid-state structures"@en . "Inorganic compound"@en . "Grain size"@en . "Bridgman technique"@en . "Crystals"@en . "Oxides"@en . "Borate"@en . "Piezoelectricity"@en . "Flux methods"@en . "Single crystals"@en . "B1 Lithium compounds"@en . . . . "Ferroelectric materials"@en . "Veber" . "Single crystal growth"@en . . . . "Cations"@en . "Magnetic materials"@en . "Tb compounds"@en . "Lattices"@en . "High-temperature solution growth"@en . "Defects"@en . "Ferroelectricity"@en . "Convection"@en . "Elemental segregation"@en . "Computer simulation"@en . "Cryogenic detector"@en . . "Inorganic compounds"@en . "Grain boundaries"@en . "Grain growth"@en . "X-ray diffraction"@en . "Czochralski method"@en . "Piezoelectrics"@en . "Lead-free"@en . "A2 Czochralski method"@en . "Spectroscopic analysis"@en . "Tungsten bronzes"@en . "Ferroelectric"@en . "Growth from high temperature solutions"@en . "Barium"@en . "Double-beta decay"@en . "Growth from solutions"@en . "B1 Oxides"@en . "Double-beta decay 0neutrino"@en . "Numerical modelling"@en . <0000-0002-0204-1266> . <090948866> . "Lithium molybdate"@en . "Piezoelectric"@en . "Scintillation counter crystal"@en . "Niobium"@en . . "Lithium"@en . "M\u00F6ssbauer spectroscopy"@en . . . "Energy resolution"@en . "Sintering"@en . "Fluorides"@en . "Relaxors"@en . "High temperature solution growth"@en . "Micro-pulling down"@en . "Crystal structure"@en . "Phase transitions"@en .