Development of novel plastic scintillators based on polyvinyltoluene for the hybrid j-pet/mr tomograph


Figure 16 Emission spectra of J-PET (green solid line), BC-420 scintillator (red dashed line) and absorption



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Figure 16 Emission spectra of J-PET (green solid line), BC-420 scintillator (red dashed line) and absorption 
coefficient µ
eff
 (blue dotted line) [70] [71]. The emission spectra are normalized in amplitude. 
 


40 
7.2. Spectral properties of J-PET scintillator 
One of the most important parameters that characterizes scintillators performance is 
light output. It is defined as a number of emitted photons per unit of energy. An extremely 
effective scintillators are inorganic crystals e.g. CsI(Tl) - 65000 photons/MeV, NaI(Tl) - 
42000 photons/MeV, Lu
2
SiO
5
:Ce (LSO) - 25000 photons/MeV, BaF
2
- 9500 photons/MeV 
and Bi
4
Ge
3
O
12
(BGO) - 8200 photons/MeV [72]. Organic crystals also can act effectively 
as 
scintillators
for 
example 
light 
output 
of 
anthracene 
is 
equal 
to
17400 photons/MeV [73].
In general, light output of plastic scintillators, which also belong to the group of 
organic scintillators, are much lower in comparison to the most effectively working 
crystalline scintillating materials. Light output of plastic scintillators produced by Saint 
Gobain range from about 30 % to about 80 % of the anthracene light output, for the 
majority of them it is about 60 % [12]. In this chapter the light output of the J-PET 
scintillator is examined. 
Positron Emission Tomography examinations are based on registration of 
annihilation gamma quanta with energy of 511 keV. Due to that, light output of J-PET 
scintillators was determined by irradiating the scintillator with annihilation gamma quanta 
of this energy emitted by 
22
Na isotope. The beam of gamma quanta was collimated by 
collimator with 1.3 mm slit. The scheme of experimental setup which was used to 
determine the light output of J-PET scintillator is presented in Fig. 17. 

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