Add to ORKGLight yield, time response, afterglow, and thermoluminescence of Ce-doped garnet scintillators and persistent luminescent materials are controlled by a complex interplay between recombination and trapping/detrapping processes. Extensive research has contributed to a good qualitative understanding of how traps, impurities, and the presence of Ce4+ affect the materials properties. In this work we present a quantitative model that can explain the thermoluminescence and afterglow behavior of complex garnets. In particular, the model allows the determination of capture rates and effective capture radii for electrons by traps and recombination centers in Lu1Gd2Ga3Al2O12:Ce garnet ceramics. The model relies on solving a set of coupled rate equatio...
Optical, luminescence and scintillation characteristics were studied in garnet-type GAGG single-crys...
Ce-doped tetracationic garnets (Gd, M)3Al2Ga3O12(M = Y, Lu) form a family of new multipurpose promis...
The shift of the conduction band (CB) edge for thirty different (Lu,Gd) 3 (Ga,Al) 5 O 12 :Ce composi...
Light yield, time response, afterglow, and thermoluminescence of Ce-doped garnet scintillators and p...
The luminescence efficiency of Ce3+ in garnet phosphors is among the most stable for luminescent mat...
Scintillators based on Ce-doped garnets are regularly co-doped with Mg2+ or Ca2+ to form Ce ions in ...
Scintillators based on Ce-doped garnets are regularly co-doped with Mg2+ or Ca2+ to form Ce ions in ...
Cerium-doped complex garnets with the general formula (Lu,Y,Gd)3,(Ga,Al)5O12:Ce are promising materi...
Afterglow is an important phenomenon in luminescent materials and can be desired (e.g., persistent p...
Afterglow is an important phenomenon in luminescent materials and can be desired (e.g., persistent p...
Garnet scintillators often suffer from undesired afterglow, the origin of which is not always well-u...
Technological factors and processes contributing to the scintillation mechanism have been considered...
Garnet single crystals are widely used as scintillators in electron detectors. Cerium activated lute...
The temperature dependence of cathodoluminescence intensity and decay time in the range I0~176 is re...
Optical, luminescence and scintillation characteristics were studied in garnet-type GAGG single-crys...
Ce-doped tetracationic garnets (Gd, M)3Al2Ga3O12(M = Y, Lu) form a family of new multipurpose promis...
The shift of the conduction band (CB) edge for thirty different (Lu,Gd) 3 (Ga,Al) 5 O 12 :Ce composi...
Light yield, time response, afterglow, and thermoluminescence of Ce-doped garnet scintillators and p...
The luminescence efficiency of Ce3+ in garnet phosphors is among the most stable for luminescent mat...
Scintillators based on Ce-doped garnets are regularly co-doped with Mg2+ or Ca2+ to form Ce ions in ...
Scintillators based on Ce-doped garnets are regularly co-doped with Mg2+ or Ca2+ to form Ce ions in ...
Cerium-doped complex garnets with the general formula (Lu,Y,Gd)3,(Ga,Al)5O12:Ce are promising materi...
Afterglow is an important phenomenon in luminescent materials and can be desired (e.g., persistent p...
Afterglow is an important phenomenon in luminescent materials and can be desired (e.g., persistent p...
Garnet scintillators often suffer from undesired afterglow, the origin of which is not always well-u...
Technological factors and processes contributing to the scintillation mechanism have been considered...
Garnet single crystals are widely used as scintillators in electron detectors. Cerium activated lute...
The temperature dependence of cathodoluminescence intensity and decay time in the range I0~176 is re...
Optical, luminescence and scintillation characteristics were studied in garnet-type GAGG single-crys...
Ce-doped tetracationic garnets (Gd, M)3Al2Ga3O12(M = Y, Lu) form a family of new multipurpose promis...
The shift of the conduction band (CB) edge for thirty different (Lu,Gd) 3 (Ga,Al) 5 O 12 :Ce composi...