公开(公告)号：US20160187497A1

公开(公告)日：2016-06-30

申请号：US14911052

申请日：2014-08-13

Applicant: KONINKLIJKE PHILIPS N.V.

Inventor： Christoph Werner LERCHE ,  Sampath POORNIMA ,  Torsten SOLF

IPC: G01T1/164

CPC classification number: G01T1/1647

Abstract: The present invention relates to a calibration method (100) for a gamma ray detector (3, 51) including a scintillator array (5) for emitting scintillation photons at photo conversion positions in response to incident gamma rays and a photodetector array (7) coupled thereto in light-sharing mode for determining a spatial intensity distribution of scintillation photons. The method comprises the steps of recording (S10) spatial intensity distributions of scintillation photons emitted by the scintillator array (5) in response to multiple incident gamma rays, determining (S22) sets of coincidently emitted scintillation photons from the recorded spatial intensity distributions, determining for the sets of coincidently emitted scintillation photons center-of-gravity positions (S24) and cumulative energies (S26), performing (S28) a clustering analysis based on the determined center-of-gravity positions and cumulative energies to obtain clusters (26a, 26b, 33) of gamma ray events attributed to a scintillator array element (15), cumulating (S29) for a cluster (26a, 26b, 33) the spatial intensity distributions to determine a cumulative spatial intensity distribution of scintillation photons emitted in response to incident gamma rays in the scintillator array element and determining (S30) a light matrix including expected spatial intensity distributions of scintillation photons for different scintillator array elements (15) based on the cumulative spatial intensity distributions. The present invention further relates to a calibration module (41) for a gamma ray detector (3, 51) including a recorder (43), a cumulation module (45) and a matrix module (47) for performing the functions of the above-explained method. Still further, the present invention relates to a gamma ray detector (3, 51) as well as to a medical imaging device (49) comprising this gamma ray detector (3, 51).