Moskal, P. et al. . A novel method for the line-of-response and time-of-flight
reconstruction in TOF-PET detectors based on a library of synchronized model signals.
Nuclear Instruments and Methods in Physics Research. 2015, Vol. A, 755.
12. Saint-Gobain Crystals. [Online] [Cited: 23 03 2017.] http://www.crystals.saint-
gobain.com/.
13. Eljen Technology. [Online] [Cited: 23 03 2017.] http://www.eljentechnology.com/.
14. Omega Piezo.
BGO, LYSO and GSO Crystal Scintillators. [Online] [Cited: 30 03
2017.] http://www.ultreo.com/crystal_scintillators.html.
15.
Coleman, R.E., Oehr, P. and Biersack, H-J. PET and PET-CT in Oncology. Berlin
Heidelberg : Springer, 2004. pp. 3-6.
16.
Mao, R., Zhang, L. and Zhu, R-Y. Optical and Scintillation Properties of Inorganic
Scintillators in High Energy Physics.
IEEE Nuclear Science Symposium Conference Record. 2007, Vol. N49, 1.
17.
Battaglieri, M. Scintillation Detectors. [Online] [Cited: 10 06 2017.]
https://www.ge.infn.it/~batta/Lect1-scint.pdf.
18.
Pałka, M. et al. A novel method based solely on FPGA units enabling measurement of
time and charge of analog signals in Positron Emission Tomography.
Bio-Algorithms and Med-Systems. 2014, Vol. 10, 41.
19.
Białas, P. et al. List mode reconstruction in 2D strip PET.
Bio-Algorithms and Med- Systems. 2014, Vol. 10, 9.
20.
Korcyl, G. et al. Trigger-less and reconfigurable data acquisition system for positron
emission tomography.
Bio-Algorithms and Med-Systems. 2014, Vol. 10, 37.
21. Hamamatsu. [Online] [Cited: 15 02 2017.] http://www.hamamatsu.com/.
22.
