An unique method of determining the excitation energy migration coefficient in organic liquid scintillators

A method is described for determining the singlet electronic excitation energy migration coefficient in an organic liquid by using the linear behaviour of the rate parameter measured as a function of temperature for a diffusion-controlled bimolecular reaction involving the excited state of the liqui

The solvent-solute energy transfer rate parameter K, is determined for a deoxygenated binary liquid scintillator system consisting of toluene (solvent), 2-phenyl-S-(4biphenylyl)-1,3,4-oxadiazole (PBD) (solute) and bromobenzene as an external solvent quencher under U.V. excitation in the temperature

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