39
to the experimental results obtained with the single detection
unit of the J-PET detector
(by factor of 1.8). The dependence of the µ
eff
on wavelength is shown in Fig. 16.
Emission of photons with larger wavelength is profitable also considering light
attenuation. In Fig. 16 emission spectra for the BC-420
and J-PET scintillators are
compared to the effective light absorption coefficient (blue dotted line) µ
eff
established for
the BC-420 scintillator strips with rectangular cross section of 7 mm × 19 mm [70]. This
value is not given by the producer. The coefficient was calculated relying on the absorption
coefficient of pure polystyrene [71]. It is connected with
self-absorption of light in
scintillators. The light is being lost due to the transport of photons through the scintillator
bar [70]. Absorption coefficient decreases with increasing wavelength. It indicates that the
light attenuation (proportional to
) will be less for the J-PET scintillator with respect
to the BC-420 since J-PET spectrum is extended towards larger wavelengths.
350
400
450
500
550
600
0.00
0.02
0.04
0.06
0.08
0.10
0.00
0.02
0.04
0.06
0.08
0.10
Abs
orpt
ion
co
effi
ci
ent
[mm
-1
]
Normali
ze
d i
nten
si
ty
[a.u
.]
Wavelength [nm]
J-PET
BC-420
Absorption coefficient
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