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430 Index Color evaluation indices, LED (Continued) luminous efficacy of radiation, 8 spectral power distribution (SPD), 6–7, 6f Color rendering index (CRI), 8–9 CoNb2O6, 307 Concentration quenching, luminescence, 13 Continental rift zone, 149–153, 150f, 151t, 152f, 155f Continuous phase transitions (CPTs) concept of universality, 297 definition, critical exponents, 295–296, 296t first order, 294 order parameter, 295 reduced temperature, 294–295 specific heat around ferromagnetic transition, EuO, 294–295, 295f Correlated color temperature (CCT), 7 Critical exponents correlation length, 295–296 definition, 295–296, 296t dynamical critical exponent, 300 order parameter, 295 great oxidation event (GOE), 182 magnetite- and ilmenite-series magmas, 182–183 monazite, 184–187, 186f zircon, 183–184, 186f Earth mantle, 138–142, 139t, 140–141f Electronic transitions 4f–5d, 12 4f–4f, 11–12 Electrophoretic deposition (EPD), 91 Energy transfer specific heat, 294–295 Critical quasiparticles, 318 Crystal-field effects, luminescence, 14–15, 15f Crystals, ionic complexes, 387–388 Cuprate superconductors, 327 D Disorder tuning, 329–330 Dual-center emission intensity vs. temperature calibration curve, 380–381 energy gap, 380–381 Eu3+/Tb3+-doped organic–inorganic hybrid NPs, 381–382, 381f Mott–Seitz model, 378–379 S-shaped curves, 378, 378f relative sensitivity and temperature uncertainty calibration, Sr and dT curves, 382, 383f Eu3+/Tb3+ thermometers, 382–383, 384f population storage reservoir, 382–383 Dynamical mean field theory (DMFT), 317 E Earth crust, 139t, 142–143, 142–143f Earth evolution, REE minerals allanite-(Ce) samples, 182–183, 184f calc-alkaline granitic rocks, 182–183 chondrite-normalized concentration, 182–183, 185f eras and stages, 179–181, 181t phosphors Ba3RNa(PO4)3F:Eu2+,Tb3+, 75–78, 77–78f Y2Si3O3N4:Ce3+,Tb3+, 74–75, 75–76f resonant, 12 sensitization, luminescence, 13 4f–4f transitions, 11–12 4f–5d transitions, 12 Fermi liquid (FL) theory, 293 First order transitions, 294 Fluid catalytic cracking (FCC) catalysts, 133 G Geochemical Earth Reference Model (GERM), 137–138 Geochemistry, rare earths bulk silicic earth, 138, 139t, 140f continental rift zone, 149–153, 150f, 151t, 152f, 155f earth crust, 139t, 142–143, 142–143f earth mantle, 138–142, 139t, 140–141f magmatic crystallization and enrichment accumulation, 154 fractional crystallization, 155–156 immiscibility, 155 mineral–melt partition coefficients distribution, 137–138, 137f geochemical earth reference model (GERM), 137–138 partitioning coefficients, 136–138 partitioning to fluids aqueous fluid–silicate melt partitioning, 157–158 complexation of, 156–157 transportation and deposition, 158–161 subduction zones, 143–149, 145–146f, 148f transportation and deposition concentrations and compositions, 161–164 deposition, 164–165 FPDF Image | HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS
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