Title :
New scintillation materials for high energy physics applications
Author :
Kennedy, C. ; Baumbaugh, B. ; Ditmire, T. ; Puseljic, D. ; Ruchti, R. ; Ryan, J. ; Baumbaugh, A. ; Knickerbocker, K. ; Kauffman, J.
Author_Institution :
Dept. of Phys., Notre Dame Univ., IN, USA
fDate :
4/1/1990 12:00:00 AM
Abstract :
The development of new organic dyes for use in scintillation materials for high-energy physics experiments is discussed. Among the materials developed are bipyridine diol, MOPOM, and DBTeM POPOP. The first material is a large Stokes´ dye with fluorescence in the green. The latter two materials have spectral emission similar to POPOP and dimethyl POPOP, but with UV shifted absorption spectra. These materials maintain the high molar extinction coefficient of POPOP, but are more soluble in polystyrene-concentrations of 1% by weight have been readily achieved. Hence, these materials may be used as primary dyes. The Stokes´ shifts are sufficiently large that these materials can be incorporated in binary scintillators, which could have important consequences for microtracking detectors in colliding beam and fixed target applications
Keywords :
luminescence of liquids and solutions; organic compounds; scintillation counters; DBTeM POPOP; MOPOM; Stokes´ dye; UV shifted absorption spectra; binary scintillators; bipyridine diol; fluorescence; microtracking detectors; molar extinction coefficient; organic dyes; scintillation materials; spectral emission; Educational institutions; Electromagnetic wave absorption; Extinction coefficients; Fluorescence; Laboratories; Optical attenuators; Organic materials; Physics; Radiation detectors; Solid scintillation detectors;
Journal_Title :
Nuclear Science, IEEE Transactions on
