A Monte Carlo Simulation of Compton Scattering in Positron Emission Tomography

Abstract

A Monte Carlo technique was used to simulate some of the important physical processes involved in the coincidence detection of gamma rays by a positron emission tomograph. The major effect considered here is the detection of Compton scattered gamma rays as coincidence counts. The Compton scattering of gamma rays in a H2O filled phantom was simulated using the Klein-Nishina cross section. Results obtained in the form of profiles of activity were compared to a model which represents scatter as the convolution of the true signal with an exponential.

Keywords

SIMULATION
MATHEMATICAL MODEL
ELASTIC SCATTERING
MONTE CARLO TECHNIQUE
GAMMA RAY
COMPTON SCATTERING
CROSS SECTION
ELECTROMAGNETIC RADIATION
GAMMA RADIATION
INTERACTIONS
SCATTERING
MATHEMATICAL MODELS
COMPUTED TOMOGRAPHY
COMPTON EFFECT
MOCKUP
MONTE CARLO SIMULATION
COINCIDENCE DETECTION
IONIZING RADIATION

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