1 / 10

GAMOS tutorial PET Exercises

GAMOS tutorial PET Exercises. Pedro Arce Dubois CIEMAT http://fismed.ciemat.es/GAMOS. Ex. 1: Define PET geometry Ex. 2: Obtain information about what is happening in a PET Ex. 3: Detector effects The exercises are sequential

nara
Download Presentation

GAMOS tutorial PET Exercises

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. GAMOS tutorialPETExercises Pedro Arce Dubois CIEMAT http://fismed.ciemat.es/GAMOS Introducción a GEANT4

  2. Ex. 1: Define PET geometry Ex. 2: Obtain information about what is happening in a PET Ex. 3: Detector effects The exercises are sequential Use the commands of the previous exercise (only change what indicated PET simulation Exercises Introducción a GEANT4

  3. 2 cm X 2 cm X 10 cm LSO crystals LSO: Lu 76.4016%, Si 6.1328%, O 17.4656% Block of 8X8 crystals 20 blocks in a ring of radius 60 cm Pace 5 rings blocks along Z separated 10 cm Water sphere of radius 2 cm at the centre of the rings Source of 511 keV photons at (0,0,0) towards the X axis PET Exercise 1a: PET geometry Introducción a GEANT4

  4. Place F18 homogeneously distributed in the water sphere Activity: 1 milliCurie PET Exercise 1b: use F18 as source Introducción a GEANT4

  5. Make info about the physics processes that occur Make the crystal sensitive detector and produce signals (hits) Obtain histograms about hits quantities (energy, position, …) Get detailed info about Compton and Photoelectric effect in crystals PET Exercise 2a: obtain information Introducción a GEANT4

  6. Use GEANT4 standard electromagnetic package, instead of low energy electromagnetic package Observe differences in energy distribution Observe differences in processes occurring Observe differences in CPU time PET Exercise 2b: standard physics Introducción a GEANT4

  7. A PET event is the one that has two signals of energy about 511 keV in the crystals Classification is done looking at the reconstructed hits Define a RecHitBuilder that sums all the energy of the crystals in a block of 8X8, and assign the position as the centre of the crystal with biggest energy Count % of PET events How many are false coincidences In how many the line joining the two crystals passes too far from the F18 positron creation PET Exercise 2c: Classify events as PET events Introducción a GEANT4

  8. Set crystal energy resolution as 20% Observe differences in hits energy Observe differences in number of PET events PET Exercise 3a: Energy resolution Introducción a GEANT4

  9. Set the dead time of crystals as 1 microseconds When a crystal takes signal, full block of 8X8 crystal becomes dead for a time Observe differences in number of PET events PET Exercise 3b: Dead time Introducción a GEANT4

  10. Set the measuring time of crystals as 1 microseconds Two signals in a crystal cannot be distinguised if they differe less than a given amount Observe differences in number of PET events Observe differences in recontructed hits PET Exercise 3c: Measuring time Introducción a GEANT4

More Related