by M. Ritzert, P. Fischer, V. Mlotok, I. Perić, C. Piemonte, N. Zorzi, V. Schulz, T. Solf and A. Thon
Reference:
Compact SiPM based detector module for time-of-flight PET/MR (M. Ritzert, P. Fischer, V. Mlotok, I. Perić, C. Piemonte, N. Zorzi, V. Schulz, T. Solf and A. Thon), In Real Time Conference, 2009. RT '09. 16th IEEE-NPSS, 2009.
Bibtex Entry:
@InProceedings{5322017,
author = "M. Ritzert and P. Fischer and V. Mlotok and I. Perić
and C. Piemonte and N. Zorzi and V. Schulz and T. Solf
and A. Thon",
title = "Compact {SiPM} based detector module for
time-of-flight {PET/MR}",
booktitle = "Real Time Conference, 2009. RT '09. 16th IEEE-NPSS",
year = "2009",
pages = "163--166",
month = may,
doi = "10.1109/RTC.2009.5322017",
keywords = "application specific integrated circuits;biomedical
MRI;biomedical equipment;digital-analogue
conversion;field programmable gate arrays;gamma-ray
apparatus;gamma-ray detection;photomultipliers;positron
emission tomography;readout electronics;scintillation
counters;ASIC control;FPGA;LYSO scintillator
block;PCB;SiPM based readout channels;application
specific integrated circuit;compact SiPM based detector
module;compact detector module;data
processing;digital-analog convertor;field programmable
gate array;gamma-light conversion;gamma-ray
detection;local voltage regulator;printed circuit
boards;readout ASIC;silicon
photomultiplier;simultaneous TOF PET-MR system;size 3.3
cm;time of flight PET-MR system;Application specific
integrated circuits;Data processing;Field programmable
gate arrays;Gamma ray detection;Gamma ray
detectors;Optical coupling;Positron emission
tomography;Process control;Regulators;Voltage control",
}