Organic Scintillators and Liquid Scintillation Counting: ProceedingsDonald L. Horrocks, Chin-Tzu Peng |
Contents
On an Empirical Correlation between Nuclear Geometry | 25 |
Techniques for the Study of Excimers | 75 |
Picosecond Observations of Molecular Processes Using | 91 |
Copyright | |
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absorption spectrum acceptor anthracene aromatic attenuation azulene band benzene bimolecular calculated CHANNEL NUMBER Chem chromophore coefficient compounds concentration counting efficiency crystal curves cyclohexane decay decrease delayed fluorescence dependence dimer donor electron emission equation ethanol excimer excitation wavelength excited singlet exciton experimental Figure fluor fluorescence Fluorescence spectra heptane hydrocarbons interaction internal conversion intersystem crossing irradiation J. B. Birks laser lifetime light linear Lipsky liquid scintillation luminescence measured mechanism molecular molecules monomer naphthalene nitrogen observed obtained optical oxygen quenching p-terphenyl p-xylene parameter phenanthrene phosphorescence photolysis photomultiplier photons Phys planar plastic scintillators plot polarization pressure pulse height quantum efficiency quantum yield quencher quenching effect radiation rate constant ratio reaction relative sample saturated scintillator solutes shift shown singlet solvent Table temperature tion toluene transition transmission triphenylene triplet triplet-triplet tritium ultraviolet values wavelength