本文利用差式扫描量热法,测定了邻二氯苯/间二氯苯、间二氯苯/对二氯苯、1,2,4-三氯苯/邻二氯苯、1,2,4-三氯苯/间二氯苯和1、2、4-三氯苯/对二氯苯等5个二元物系的固液平衡关系,并按以下方程进行了数据拟合: T=T<sub>m</sub&g...本文利用差式扫描量热法,测定了邻二氯苯/间二氯苯、间二氯苯/对二氯苯、1,2,4-三氯苯/邻二氯苯、1,2,4-三氯苯/间二氯苯和1、2、4-三氯苯/对二氯苯等5个二元物系的固液平衡关系,并按以下方程进行了数据拟合: T=T<sub>m</sub><sup>*</sup>[1+sum from j=1 to n a<sub>j</sub>(x<sub>1</sub>-x<sub>1</sub><sup>*</sup>)<sup>j</sup>]式中,T<sub>m</sub><sup>*</sup>为纯物质的熔点,x<sub>1</sub><sup>*</sup>为T<sub>m</sub><sup>*</sup>下组分1的摩尔分率,a<sub>j</sub>为拟合系数。通过按不同比例配制的邻、间、对二氯苯以及1,2,4-三氯苯拟二元相图,测出了下列物系三元固液平衡温度-组成关系:邻二氯苯/间二氯苯/对二氯苯、邻二氯苯/对二氯苯/1,2,4-三氯苯和邻二氯苯/间二氯苯/1,2,4-三氯苯。展开更多
The CsI(T1) crystal modules of the Beijing Spectrometer Ⅲ (BESⅢ) electro-magnetic calorimeter (EMC) were designed and assembled through Monte Carlo simulation and experiments. After the assembly was finished, ...The CsI(T1) crystal modules of the Beijing Spectrometer Ⅲ (BESⅢ) electro-magnetic calorimeter (EMC) were designed and assembled through Monte Carlo simulation and experiments. After the assembly was finished, the performance of each crystal module was tested by cosmic rays. All crystal modules were found to work well before the installation of EMC.展开更多
Purpose The distributions of energy responses of helium measured by the electromagnetic calorimeter(ECAL)of Alpha Magnetic Spectrometer(AMS-02)in Monte-Carlo do not agree with those in real data,thus using energy resp...Purpose The distributions of energy responses of helium measured by the electromagnetic calorimeter(ECAL)of Alpha Magnetic Spectrometer(AMS-02)in Monte-Carlo do not agree with those in real data,thus using energy response matrix obtained from Monte-Carlo to measure the cosmic ray helium spectrum is not correct.Therefore,the spectrum measured with ECAL based on raw Monte-Carlo would be different from the real one.The purpose is to correct the response matrix to measure helium spectrum with ECAL.Methods The energy measured by ECAL of AMS-02 provides in-flight correction for the energy response matrix in Monte-Carlo.Results The spectrum based on corrected response matrix is consistent with the AMS collaboration published result.Conclusions It is feasible to measure helium spectrum with ECAL with corrected energy response matrix.展开更多
文摘本文利用差式扫描量热法,测定了邻二氯苯/间二氯苯、间二氯苯/对二氯苯、1,2,4-三氯苯/邻二氯苯、1,2,4-三氯苯/间二氯苯和1、2、4-三氯苯/对二氯苯等5个二元物系的固液平衡关系,并按以下方程进行了数据拟合: T=T<sub>m</sub><sup>*</sup>[1+sum from j=1 to n a<sub>j</sub>(x<sub>1</sub>-x<sub>1</sub><sup>*</sup>)<sup>j</sup>]式中,T<sub>m</sub><sup>*</sup>为纯物质的熔点,x<sub>1</sub><sup>*</sup>为T<sub>m</sub><sup>*</sup>下组分1的摩尔分率,a<sub>j</sub>为拟合系数。通过按不同比例配制的邻、间、对二氯苯以及1,2,4-三氯苯拟二元相图,测出了下列物系三元固液平衡温度-组成关系:邻二氯苯/间二氯苯/对二氯苯、邻二氯苯/对二氯苯/1,2,4-三氯苯和邻二氯苯/间二氯苯/1,2,4-三氯苯。
文摘The CsI(T1) crystal modules of the Beijing Spectrometer Ⅲ (BESⅢ) electro-magnetic calorimeter (EMC) were designed and assembled through Monte Carlo simulation and experiments. After the assembly was finished, the performance of each crystal module was tested by cosmic rays. All crystal modules were found to work well before the installation of EMC.
基金funding was provided by China Sponsorship Council(Grant Number:202004910534).
文摘Purpose The distributions of energy responses of helium measured by the electromagnetic calorimeter(ECAL)of Alpha Magnetic Spectrometer(AMS-02)in Monte-Carlo do not agree with those in real data,thus using energy response matrix obtained from Monte-Carlo to measure the cosmic ray helium spectrum is not correct.Therefore,the spectrum measured with ECAL based on raw Monte-Carlo would be different from the real one.The purpose is to correct the response matrix to measure helium spectrum with ECAL.Methods The energy measured by ECAL of AMS-02 provides in-flight correction for the energy response matrix in Monte-Carlo.Results The spectrum based on corrected response matrix is consistent with the AMS collaboration published result.Conclusions It is feasible to measure helium spectrum with ECAL with corrected energy response matrix.