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A Multi-Threshold Method for TOF-PET Signal Processing Heejong Kim 1, Chien-Min Kao 1, Qingguo Xie 1, Chin-Tu Chen 1, Octavia Biris 2, Jialin Lin 2, Fukun.

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Presentation on theme: "A Multi-Threshold Method for TOF-PET Signal Processing Heejong Kim 1, Chien-Min Kao 1, Qingguo Xie 1, Chin-Tu Chen 1, Octavia Biris 2, Jialin Lin 2, Fukun."— Presentation transcript:

1 A Multi-Threshold Method for TOF-PET Signal Processing Heejong Kim 1, Chien-Min Kao 1, Qingguo Xie 1, Chin-Tu Chen 1, Octavia Biris 2, Jialin Lin 2, Fukun Tang 2, Lin Zhou 2, Henry Frisch 2, Woon-Seng Choong 3, William Moses 3 1. Department of Radiology, University of Chicago, IL 2. Enrico Fermi Institute, University of Chicago, IL 3. Lawrence Berkeley National Laboratory, Berkeley, CA 1. Introduction 2. Experimental Setup 3. Results 4. Summary Idea of Multi-threshold discriminator method. Sampling pulse at pre-defined voltage levels. Output : only digitized timings. Pulse reconstruction using digitized timings. Remove analog blocks.( Pre-Amp, ADC, CFD) DSP technology can be utilized. (event time, energy) Multi-threshold discriminator board was developed. 2 boards with 4channels in each. 0-700mV of adjustable threshold level. Used ADCMP582 comparators. Timings at leading and falling edges. a. Time resolution of discriminator b. Pulse reconstruction (HPTDC) c. Coincidence timing resolution Two Hamamatsu R9800 photomultiplier tubes (HV = -1,300V) Coupled with LSO crystals( 6.25x6.25x25mm3). Separated 5cm apart. Na-22 used for positron source located at the center. Multi-threshold discriminator board setup: Inputs from 2 PMT signals Thresholds : 50, 100, 200, 300mV Timing Readout : TDS6154 oscilloscope with 20GS/s.(Tektronix) HPTDC.( 8chs, 25 ps/bit, developed at CERN) Sent pulse generator signals to two channels. Measured time difference with the TDS6154 oscilloscope. Time resolution of single channel : ~13.3ps(FWHM) Select the gamma coincidence events. events with 2, 3 and 4 hits from each board. Reconstructed pulse shape. Linear fit on the leading edge. ( event time). Exponential fit on the falling edge. ( energy, decay constant) Fig. 4 Energy distribution of 511keV gamma.Fig. 5. The decay time constant. Fig. 1. PMT waveform by 20GS/s oscilloscope superimposed with timing readouts by the Multi-threshold board + HPTDC. HPTDC board 4chs outputs (LVDS) Fig. 2. Multi-threshold board (left) connected to HPTDC module (right). Fig. 3. A Block diagram of the setup. References Fig. 6. Time difference of coincidence events Select the coincidence events. Least square fit to the leading edge timings. Use two leading edges with100, 200mV thresholds. Extrapolated at 0mV. The time difference, t1-t2. (FWHM) Oscilloscope : 330ps HPTDC : 350ps Multi-threshold discriminator board with adjustable thresholds was developed to implement the idea of digitally sampling of the signal from PET detector. The signal from LSO+R9800PMT to the gamma coincidence was fed to the multi-threshold board. The pulse shape was reconstructed using the digitized timing from the multi-threshold board. 18% of energy resolution was obtained for the reconstructed.( 13% using 20GS waveform) The decay time constant was measured 44ns and compared to 45ns using 20GS waveform. The 330ps of coincidence time resolution was achieved and compared to ~300ps using CFD reported in [1]. 1.Q. Xie et al, NSS/MIC 2007, p4271, “Potential advantages of Digitally sampling scintillation pulses in timing determination in PET” InputThreshold set 20GS waveform Multi-threshold Energy resolution 13%(FWHM) 18% Decay constant 45ns (4ns width) 44ns (9ns width)

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