Energy transfer and storage processes in scintillators: The role and nature of defects

## Abstract Electron and hole trapping phenomena below room temperature were studied by simultaneous use of electron paramagnetic resonance (EPR) and thermostimulated luminescence (TSL) experiments in Ce‐doped YAlO~3~, Y~3~Al~5~O~12~ and Lu~3~Al~5~O~12~ single crystals. Charge‐carrier trapping asso

The energy transfer rate parameter K 3 and the quenching rate parameter KTb are determined in a liquid scintillator system consisting of 2,5-di-[5-tertbutyl-2-benzoxazolyl)-thiophene (BBOT) as solute, toluene as solvent and bromobenzene as external solvent quencher in three different media; neat tol

## Abstract Luminescence and scintillation dynamics can be extensively influenced by the energy transfer processes, which is demonstrated at three selected scintillator materials: PbWO~4~, Ce‐doped aluminium garnets and PrF~3~:Ce single crystals. Charge carrier retrapping processes can delay radiat

Surface (enhanced) @ht scattering is treated as an efficient cnegy transfer between escited electronic staies of the adsorbate and the metal, followed by a partially radiative decay of the latter. This explains the coverage-dependent surface fluorescence suppression as well as the total enhancement