doctoral thesis
Abstract
The use of Cherenkov light in positron emission tomography (PET) has the potential
to improve the time-of-fight (TOF) resolution and reduce the cost of detectors.
Lead fuoride (PbF2) has emerged as a highly performing radiator material suitable
for TOF-PET application due to its excellent gamma stopping power and optical
properties. Previous studies using coincidences between a small number of crystals
have shown good performance in terms of coincidence time resolution (CTR). In
this work, the feasibility of Cherenkov TOF-PET is studied in detail, extending the
number of channels and optimizing the detectors for better performance. Simulations
were used to study different detector geometries and PbF2 crystal optical surface
treatments, up to a whole-body PbF2 TOF-PET scanner. The simulation data
showed that the quality of reconstructed images obtained when using different
Cherenkov TOF-PET scanner geometries is comparable to current state-of-theart
scintillator scanners. Experiments with different detector confgurations were
carried out to measure CTR and e ciency. The HRFlexTOT electronics enabled
measurements of coincidences between two Cherenkov TOF-PET modules placed
in a back-to-back confguration with up to 16 channels per module. Of particular
interest is a multi-layer detector geometry, which improves the TOF resolution and
reduces the parallax error without compromising the detection e ciency. With a
multi-layer detector geometry, the CTR of the simulated whole-body PbF2 TOFPET
scanner was 143 ps, out of which the fundamental limitation due to light
production and transportation was only 22 ps. Experimentally, such CTR value
could not yet be achieved due to the limited performance of silicon photomultiplier
photodetectors currently available. With further development of the photodetectors
and the readout electronics, Cherenkov TOF-PET could become a competitive
reality in PET.
Keywords
positron emission tomography;Cherenkov light;photodetectors;photomultipliers;
Data
Language: |
English |
Year of publishing: |
2022 |
Typology: |
2.08 - Doctoral Dissertation |
Organization: |
UL FMF - Faculty of Mathematics and Physics |
Publisher: |
[D. Consuegra Rodríguez] |
UDC: |
539.1.074.4 |
COBISS: |
128062723
|
Views: |
35 |
Downloads: |
11 |
Average score: |
0 (0 votes) |
Metadata: |
|
Other data
Secondary language: |
Slovenian |
Secondary title: |
Uporaba silicijevih fotopomnoževalk za zaznavanje fotonov Čerenkova pri pozitronski tomografji |
Secondary abstract: |
Uporaba svetlobe Čerenkova v pozitronski tomografiji (PET) omogoča izboljšanje
ločljivosti meritve časa preleta (TOF) in znižanje cene detektorjev. Svinčev fuorid
(PbF2) se je izkazal kot visoko zmogljiv sevalec Čerenkove svetlobe za uporabo v
TOF-PET, zahvaljujoč njegovim odličnim optičnim lastnostim in moči ustavljanja
žarkov gama. Pretekle študije z manjšim številom kristalov so potrdile, da je mogoče doseči odlično ločljivost meritve časa med koincidencami (CTR). V tem delu je
podrobno preučena praktičnost Čerenkove pozitronske tomografije z meritvijo časa
preleta (Čerenkova TOF-PET), s študijami, ki vključujejo večje število kanalov detektorja,
in z optimizacijo detektorjev za boljšo zmogljivost. S pomočjo simulacij
so bile raziskane različne geometrije detektorjev in površinske obdelave kristalov
PbF2, vse do celotne naprave za Čerenkovo TOF-PET. Rezultati simulacij kažejo,
da je kvaliteta slik, rekonstruiranih z različnimi geometrijami Čerenkov TOF-PET
skenerjev, primerljiva s kvaliteto ki jo omogočajo trenutno najboljše scintilatorske
naprave za TOF-PET. V eksperimentih z različnimi konfiguracijami detektorja sta
bili izmerjeni CTR in učinkovitost zaznavanja. Posebej zanimiva je večplastna geometrija
detektorja, ki omogoča izboljšanje časovne ločljivosti in zmanjšanje napake
zaradi paralakse brez zmanjšanja učinkovitosti zaznavanja. Z večplastnim detektorjem
je bila CTR simuliranega Čerenkov TOF-PET skenerja 143 ps, pri čemer
je fundamentalna omejitev zaradi nastajanja fotonov in njihovega potovanja skozi
kristal le 22 ps. Eksperimentalno tako dobre ločljivosti še ni mogoče doseči, zaradi
omejene zmogljivosti uporabljenih fotodetektorjev, silicijevih fotopomnoževalk.
Elektronika HRFlexTOT je omogočila meritve koincidenc med dvema moduloma za
Čerenkovo TOF-PET, s 16 kanali na modul. Z nadaljnjim razvojem fotodetektorjev
in elektronike bi Čerenkova TOF-PET lahko postala konkurenčna metoda za PET. |
Secondary keywords: |
pozitronska tomografija;Čerenkova svetloba;fotodetektorji;fotopomnoževalke; |
Type (COBISS): |
Doctoral dissertation |
Study programme: |
0 |
Embargo end date (OpenAIRE): |
1970-01-01 |
Thesis comment: |
Univ. v Ljubljani, Fak. za matematiko in fiziko, Oddelek za fiziko |
Pages: |
XXXII, 175 str. |
ID: |
16821814 |