A new digital pulse processing method for 2πa and 2πβemitter measurement

Digital pulse processing has developed rapidly during recent years. Moreover, it has been widely applied in many fields. In this study, we introduce a digital pulse processing method for 2πa and 2πβemitter measurement. Our digital pulse processing method for 2πa and 2πβemitter measurement is compris...

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Veröffentlicht in:	核技术（英文版） 2016 (6), p.195-201
1. Verfasser:	Zheng Tu Ke-Zhu Song Ming Zhang Zhi-Jie Yang Zhi-Guo Ding Hong-Wei Yu Jun-Cheng Liang Hao-Ran Liu
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creator	Zheng Tu Ke-Zhu Song Ming Zhang Zhi-Jie Yang Zhi-Guo Ding Hong-Wei Yu Jun-Cheng Liang Hao-Ran Liu
description	Digital pulse processing has developed rapidly during recent years. Moreover, it has been widely applied in many fields. In this study, we introduce a digital pulse processing method for 2πa and 2πβemitter measurement. Our digital pulse processing method for 2πa and 2πβemitter measurement is comprised of a field-programmable gate-array-based acquisition card and a pulse-height anal-ysis routine. We established two channels (one for the a emitter and one for theβemitter) on an acquisition board using an analog-to-digital converter with a 16-bit resolu-tion at a speed of 100 million samples per second. In this study, we used captured and stored data to analyze emis-sion rate counts and spectrums. The method we established takes into account noise cancelation, dead-time correction, background subtraction, and zero-energy extrapolation. We carefully designed control procedures in order to simplify pulse-width fitting and threshold-level setting. We trans-mitted data and commands through a universal serial bus between the acquisition board and the computer. The results of our tests prove that our method performs well in pulse reconstruction fidelity and amplitude measurement accuracy. Compared with the current standard method for measuring 2πa and 2πβ emission rates, our system demonstrates excellent precision in emission rate counting.
doi_str_mv	10.1007/s41365-016-0137-z
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Moreover, it has been widely applied in many fields. In this study, we introduce a digital pulse processing method for 2πa and 2πβemitter measurement. Our digital pulse processing method for 2πa and 2πβemitter measurement is comprised of a field-programmable gate-array-based acquisition card and a pulse-height anal-ysis routine. We established two channels (one for the a emitter and one for theβemitter) on an acquisition board using an analog-to-digital converter with a 16-bit resolu-tion at a speed of 100 million samples per second. In this study, we used captured and stored data to analyze emis-sion rate counts and spectrums. The method we established takes into account noise cancelation, dead-time correction, background subtraction, and zero-energy extrapolation. We carefully designed control procedures in order to simplify pulse-width fitting and threshold-level setting. We trans-mitted data and commands through a universal serial bus between the acquisition board and the computer. The results of our tests prove that our method performs well in pulse reconstruction fidelity and amplitude measurement accuracy. Compared with the current standard method for measuring 2πa and 2πβ emission rates, our system demonstrates excellent precision in emission rate counting.</description><identifier>ISSN: 1001-8042</identifier><identifier>EISSN: 2210-3147</identifier><identifier>DOI: 10.1007/s41365-016-0137-z</identifier><language>eng</language><publisher>State Key Laboratory of Particle Detection and Electronics, University of Science and Technology of China, Hefei 230026, China%National Institute of Metrology, 18 North Third Ring East Rd., Beijing 100029, China</publisher><ispartof>核技术（英文版）, 2016 (6), p.195-201</ispartof><rights>Copyright © Wanfang Data Co. Ltd. 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Our digital pulse processing method for 2πa and 2πβemitter measurement is comprised of a field-programmable gate-array-based acquisition card and a pulse-height anal-ysis routine. We established two channels (one for the a emitter and one for theβemitter) on an acquisition board using an analog-to-digital converter with a 16-bit resolu-tion at a speed of 100 million samples per second. In this study, we used captured and stored data to analyze emis-sion rate counts and spectrums. The method we established takes into account noise cancelation, dead-time correction, background subtraction, and zero-energy extrapolation. We carefully designed control procedures in order to simplify pulse-width fitting and threshold-level setting. We trans-mitted data and commands through a universal serial bus between the acquisition board and the computer. The results of our tests prove that our method performs well in pulse reconstruction fidelity and amplitude measurement accuracy. 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title	A new digital pulse processing method for 2πa and 2πβemitter measurement
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