EJNMMI Physics (Apr 2020)

Coincidence energy spectra due to the intrinsic radioactivity of LYSO scintillation crystals

  • Francisco Eduardo Enríquez-Mier-y-Terán,
  • Ana Saret Ortega-Galindo,
  • Tirso Murrieta-Rodríguez,
  • Mercedes Rodríguez-Villafuerte,
  • Arnulfo Martínez-Dávalos,
  • Héctor Alva-Sánchez

DOI
https://doi.org/10.1186/s40658-020-00291-1
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 17

Abstract

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Abstract Background Lutetium oxyorthosilicate or lutetium yttrium oxyorthosilicate (LYSO) scintillation crystals used in most current PET scanner detectors contain 176Lu, which decays by beta emission to excited states of 176Hf accompanied by the emission of prompt gamma rays or internal conversion electrons. This intrinsic radioactivity can be self-detected in singles mode as a constant background signal that has an energy spectrum whose structure has been explained previously. In this work, we studied the energy spectrum due to the intrinsic radioactivity of LYSO scintillation crystals of two opposing detectors working in coincidence mode. The investigation included experimental data, Monte Carlo simulations and an analytical model. Results The structure of the energy spectrum was completely understood and is the result of the self-detection of beta particles from 176Lu in one crystal and the detection of one or more prompt gamma rays detected in coincidence by the opposing crystal. The most probable coincidence detection involves the gamma rays of 202 and 307 keV, which result in two narrow photopeaks, superimposed on a continuous energy distribution due to the beta particle energy deposition. The relative intensities of the gamma ray peaks depend on crystal size and detector separation distance, as is explained by the analytical model and verified through the Monte Carlo simulations and experiments. Conclusions The analytical model used in this work accurately explains the general features of the coincidence energy spectrum due to the presence of 176Lu in the scintillation crystals, as observed experimentally and with Monte Carlo simulations. This work will be useful to those research studies aimed at using the intrinsic radioactivity of LYSO crystals for transmission scans and detector calibration in coincidence mode.

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