English

Virtual Point Source Synthesis method for 3D Scintillation Detector Characterization

Instrumentation and Detectors 2021-06-24 v1 Medical Physics

Abstract

A novel data-processing method was developed to facilitate scintillation detector characterization. Combined with fan-beam calibration, this method can be used to quickly and conveniently calibrate gamma-ray detectors for SPECT, PET, homeland security or astronomy. Compared with traditional calibration methods, this new technique can accurately calibrate a photon-counting detector, including DOI information, with greatly reduced time. The enabling part of this technique is fan-beam scanning combined with a data-processing strategy called the common-data subset (CDS) method, which was used to synthesize the detector's mean detector response functions (MDRFs). Using this approach, 2N2N scans (NN in x and NN in y direction) are necessary to finish calibration of a 2D detector as opposed to N2N^2 scans with a pencil beam. For a 3D detector calibration, only 3N3N scans are necessary to achieve the 3D detector MDRFs that include DOI information. Moreover, this calibration technique can be used for detectors with complicated or irregular MDRFs. We present both Monte-Carlo simulations and experimental results that support the feasibility of this method.

Keywords

Cite

@article{arxiv.2106.12219,
  title  = {Virtual Point Source Synthesis method for 3D Scintillation Detector Characterization},
  author = {Xin Li and Li Tao and Craig S. Levin and Lars R. Furenlid},
  journal= {arXiv preprint arXiv:2106.12219},
  year   = {2021}
}
R2 v1 2026-06-24T03:29:52.727Z