A new algorithm of structure random response numerical characteristics, namedas matrix algebra algorithm of structure analysis is presented. Using the algorithm, structurerandom response numerical characteristics can ...A new algorithm of structure random response numerical characteristics, namedas matrix algebra algorithm of structure analysis is presented. Using the algorithm, structurerandom response numerical characteristics can easily be got by directly solving linear matrixequations rather than structure motion differential equations. Moreover, in order to solve thecorresponding linear matrix equations, the numerical integration fast algorithm is presented. Thenaccording to the results, dynamic design and life-span estimation can be done. Besides, the newalgorithm can solve non-proportion damp structure response.展开更多
Purpose The purpose of this work is to study the pulse shape,energy resolution,non-proportionality of energy response for gamma-rays,and time characteristics of CeBr_(3) detector.Method The time and energy responses o...Purpose The purpose of this work is to study the pulse shape,energy resolution,non-proportionality of energy response for gamma-rays,and time characteristics of CeBr_(3) detector.Method The time and energy responses of two CeBr_(3) detectors were characterized by an analog method and a digital method using a set of standardγ-ray sources.The pulse shape,energy resolution and non-proportionality(nPR)of energy response forγ-rays were characterized using the analog method.For the analog method,the high voltage applied to PMTs,parameters of walk and external delay of constant fraction discriminator were optimized.For the digital method,a CEAN 1729A digitizer with sampling frequency of 2 GS/s and resolution of 11 bit,and a digital constant fraction discrimination technique were used to study the time performance of the two CeBr_(3) detectors.Then,the coincidence time resolutions of the CeBr_(3) detectors for the gamma peaks of ^(22)Na and ^(60)Co were measured using the two methods.Results The t_(rise),lifetimeτ,t_(fall) for CeBr_(3)21^(#)and 22^(#)are 11.2 ns,23.8 ns,50.2 ns,and 10.4 ns,26.5 ns,58.6 ns,respectively.The measured non-proportionality of CeBr_(3)21^(#)and 22^(#)are 1.08%and 2.22%,respectively.The time resolutions of the two CeBr_(3) detectors are 244±2 ps and 248±3 ps at the energy peaks of ^(60)Co source,and 336±2 ps and 335±3 ps at 511 keV for the analog and the digital methods.Conclusions The time resolutions obtained by the analog method and the digital method are almost identical.The CeBr_(3) detector is a good option in the applications such as half-life measurements,ToF-PET and high counting rate conditions.Furthermore,it is a goodγ-ray spectrometer owing to the preferable energy resolution and non-internal activity.展开更多
基金This project is supported by National Natural Science Foundation of China (No.59805001)
文摘A new algorithm of structure random response numerical characteristics, namedas matrix algebra algorithm of structure analysis is presented. Using the algorithm, structurerandom response numerical characteristics can easily be got by directly solving linear matrixequations rather than structure motion differential equations. Moreover, in order to solve thecorresponding linear matrix equations, the numerical integration fast algorithm is presented. Thenaccording to the results, dynamic design and life-span estimation can be done. Besides, the newalgorithm can solve non-proportion damp structure response.
基金supported by the National Science Founda-tion of China(Grant No.11575165 and 11775200)
文摘Purpose The purpose of this work is to study the pulse shape,energy resolution,non-proportionality of energy response for gamma-rays,and time characteristics of CeBr_(3) detector.Method The time and energy responses of two CeBr_(3) detectors were characterized by an analog method and a digital method using a set of standardγ-ray sources.The pulse shape,energy resolution and non-proportionality(nPR)of energy response forγ-rays were characterized using the analog method.For the analog method,the high voltage applied to PMTs,parameters of walk and external delay of constant fraction discriminator were optimized.For the digital method,a CEAN 1729A digitizer with sampling frequency of 2 GS/s and resolution of 11 bit,and a digital constant fraction discrimination technique were used to study the time performance of the two CeBr_(3) detectors.Then,the coincidence time resolutions of the CeBr_(3) detectors for the gamma peaks of ^(22)Na and ^(60)Co were measured using the two methods.Results The t_(rise),lifetimeτ,t_(fall) for CeBr_(3)21^(#)and 22^(#)are 11.2 ns,23.8 ns,50.2 ns,and 10.4 ns,26.5 ns,58.6 ns,respectively.The measured non-proportionality of CeBr_(3)21^(#)and 22^(#)are 1.08%and 2.22%,respectively.The time resolutions of the two CeBr_(3) detectors are 244±2 ps and 248±3 ps at the energy peaks of ^(60)Co source,and 336±2 ps and 335±3 ps at 511 keV for the analog and the digital methods.Conclusions The time resolutions obtained by the analog method and the digital method are almost identical.The CeBr_(3) detector is a good option in the applications such as half-life measurements,ToF-PET and high counting rate conditions.Furthermore,it is a goodγ-ray spectrometer owing to the preferable energy resolution and non-internal activity.
