17
overlaps with the absorption spectrum of the acceptor - primary fluor.
In case of
polystyrene and polyvinyltoluene, fluorophores are the delocalized π electrons. The light
emission of the donor is not involved. Förster energy transfer is based on dipole - dipole
interaction between molecules of donor and acceptor
distant from each other
by 30 - 60 Å [36].
Primary fluor absorbs the energy and emits it in UV range via fluorescence
(see Fig. 5). This wavelength is not adjusted to the quantum
efficiency of the light
detectors which are photomultipliers. To shift the maximum wavelength of emission
towards
larger wavelengths, wavelength shifter is used. This substance absorbs the light
emitted by primary fluor, and as a result, photons in visible range are produced. Such light
can be efficiently detected by a photomultiplier.
3.2. Chemical compounds of plastic scintillators
Plastic scintillators are obtained by polymerization of the liquid monomer in which
scintillating additives are dissolved. In effect, a block of homogeneous scintillator can be
obtained. Nowadays, polyvinyltoluene (PVT) is the most widely
used matrix for plastic
scintillators base because of the best scintillating properties among polymers.
Commercially
available
scintillators
offered
by
Eljen
Technology
[13]
or
Saint-Gobain [12] are based on polyvinyltoluene. Polystyrene (PS), its homolog, is very
popular as scintillator matrix as well [37]. Chemical structures
of this compounds are
shown in Tab. 3.
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