Experimental validation of the backscattering gamma-ray spectra with the monte carlo code

Abstract

In this study, simulations were done of a 661.6 keV line from a point source of 137Cs housed in a lead shield. When increasing the scattering angle from 60 to 120 degrees with a 6061 aluminum alloy target placed at angles of 30 and 45 degrees to the incident beam, the spectra showed that the single scattering component increases and that the multiple scattering component decreases. The investigation of the single and multiple scattering components was carried out using a MCNP5 simulation code. The component of the single Compton scattering photons is proportional to the target electron density at the point where the scattering occurs. The single scattering peak increases according to the thickness of the target and saturates at a certain thickness. The signal-to-noise ratio was found to decrease according to the target thickness. The simulation was experimentally validated by measurements. These results will be used to etermine the best conditions under which this method can be applied to testing electron densities or to assess the thickness of samples to locate defects in them.