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



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22
Ne.
Measurements were conducted with delay coincidence spectrometer which block 
scheme is shown in Fig. 28. Gamma quanta originating from tested sample reach 
scintillating detectors START and STOP. As scintillators BaF
2
crystals were used. 
Detectors emit scintillation of two components: fast (decay time shorter than 1 ns and 
wavelength 220 nm) and slow (decay time 620 ns and wavelength 310 nm). Detectors are 
characterized by large absorption of gamma quanta by photoelectric effect [95].
As photoelectric converters XP2020Q photomultipliers were used. 
Spectrometer consists of two branches: time - which is fast, and energy - which is 
slow. Start and stop signals, corresponding to registration of quanta of energy 1274 keV 
and 511 keV are chosen by the energy branch. The role of the time branch is the 
measurement of time interval between registration of both quanta. Branches are conjugated 
therefore only coincidences fulfilling the condition of the energy selection are registered. 
In the energy - "slow" - branch, the pulse coming from photomultipliers is 
amplified and shaped by spectrometric amplifier (SA). Next the pulse is transmitted to 
single channel amplitude analyzer (SCA). Signals with amplitude fitting to the fixed 
window of SCA are proceeded to triple coincidence system (TCS). 


58 
 
Figure 28 Scheme of fast - slow spectrometer for measurements of positron lifetimes. 
START - detector registering gamma quanta with energy of 1274 keV 
STOP - detector registering gamma quanta with energy of 511 keV 
HV - high voltage power supply 
SA - spectrometric amplifier 
SCA - single - channel amplitude analyzer 
D - discriminator 
TAC - time - to - amplitude converter 
APS - anti pile - up system 
DCS - double coincidence system 
TCS - triple coincidence system 
MCA - multi channel amplitude analyzer 
DL - delay line 


59 
In the time - "fast" branch, the pulse from photomultipliers is shaped by 
discriminator (D), which compensates time dispersion correlated with amplitudes and rise 
time of input pulse. From the discriminator two pulses are send. The first one is transmitted 
to anti pile up system, where overlapping pulses are eliminated. The second pulse reaches
time - to amplitude converter (TAC). From the START detector the pulse is transmitted to 
TAC directly but from STOP detector through the delay line (DL). TAC generates a pulse 
of amplitude proportional to the time interval between START and STOP pulses. Then the 
pulse is transferred to multi channel amplitude analyzer (MCA) equipped with analogue - 
digital 8192 channels Wilkinson converter. Pulses from anti pile up system go to MCA as 
well through double coincidence system (DCS), delay line (DL) and triple coincidence 
system (TCS) which is a gate opening the entrance for the pulse coming from time - to 
amplitude converter (TAC). Data collected by multi channel amplitude analyzer may be 
read by computer. 
Measurements were conducted within the temperature range from 123 K to 423 K. 
A temperature was raised using a resistance heater and liquid nitrogen was used in order to 
cool down the sample. Spectra were collected in each temperature for at least 2 hours. 
They were analyzed using LT 9.1 program [96]. Three discrete lifetime components were 
found: 170 - 190 ps which corresponds to p-Ps annihilation, 380 - 570 ps corresponding to 
free annihilation and one component over 1.8 ns which corresponds to o-Ps annihilation. 
The obtained results are presented in Fig. 29 showing o-Ps lifetime (τ
3
) and intensity (I
3
) as 
a function of temperature. The o-Ps lifetime and intensity give information about size of 
free volumes and their concentrations, respectively. 


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