Digital pulse timing with semiconductor gamma-ray detectors using a wavelet transform technique

Abstract: Obtaining precise timing information from semiconductor gamma-ray detectors is of great interest for a variety of applications such as high-resolution positron emission tomography. However, pulse timing with these detectors through the common constant-fraction discrimination (CFD) method is strongly affected by the time-walk error that results from the inherent variations in the shape of the detectors’ pulses. This paper reports on the use of the wavelet transform for minimizing the time-walk error in digital … Show more

“…The availability of fast digitizers have resulted in a slew of methods to increase the timing resolution of HPGe detectors, such as optimizing the parameters of digital time pick-off algorithms [5,13] or implementing novel pulse shape discrimination techniques, which have the additional benefit of being able to determine the γ-ray interaction point in the detector for tracking or to discriminate between single site or multi-site interactions [3,10,12,13,[18][19][20][21][22][23][24][25].…”

Efficient machine learning approach for optimizing the timing resolution of a high purity germanium detector

“…The availability of fast digitizers have resulted in a slew of methods to increase the timing resolution of HPGe detectors, such as optimizing the parameters of digital time pick-off algorithms [5,13] or implementing novel pulse shape discrimination techniques, which have the additional benefit of being able to determine the γ-ray interaction point in the detector for tracking or to discriminate between single site or multi-site interactions [3,10,12,13,[18][19][20][21][22][23][24][25].…”

Efficient machine learning approach for optimizing the timing resolution of a high purity germanium detector