We present a comprehensive study on the individual sources of an inclusive photon production during high-energy hadronic collisions.The cross section and invariant yields of inclusive photons are obtained as a functio...We present a comprehensive study on the individual sources of an inclusive photon production during high-energy hadronic collisions.The cross section and invariant yields of inclusive photons are obtained as a function of pT at mid-rapidity(|y|<0.5)in p+p and Au+Au collisions at√SNN=200GeVrespectively.These results provide crucial inputs to separate measurements of open bottom and charm hadron yield suppression in heavyion collisions,which are used to test the mass hierarchy of the parton energy loss in the quark gluon plasma created during these collisions.The procedure developed in this study can also be applied to other measurements of electrons from an open heavy-flavor hadron decay,such as the collective flow in the RHIC beam energy scan program.展开更多
Naturally complete mixing promotes the spontaneous redistribution of dissolved oxygen(DO),representing an ideal state for maintaining good water quality,and conducive to the biomineralization of organic matter.Water l...Naturally complete mixing promotes the spontaneous redistribution of dissolved oxygen(DO),representing an ideal state for maintaining good water quality,and conducive to the biomineralization of organic matter.Water lifting aerators(WLAs)can extend the periods of complete mixing and increase the initial mixing temperature.To evaluate the influence of artificial-induced continuously mixing on dissolved organic matter(DOM)removal performance,the variations of DOM concentrations,optical characteristic,environmental factors were studied after approaching the total mixing status via WLAs operation.During this process,the dissolved organic carbon reduced by 39.18%,whereas the permanganate index decreased by 20.47%.The optical properties indicate that the DOM became more endogenous and its molecular weight decreased.Based on the results of the Biolog Eco Plates,the microorganisms were maintained at a relatively high metabolic activity in the early stage of induced mixing when the mixing temperature was relatively high,whereas DOM declined at a high rate.With the continuous decrease in the water temperature,both the metabolic capacity and the diversity of aerobic microorganisms significantly decreased,and the rate of organic matter mineralization slowed down.The results of this study demonstrate that the artificial induced mixing largely enhanced the removal DOM performance by providing a long period of aerobic conditions and higher initial temperature.展开更多
Reservoirs have been served as the major source of drinking water for dozens of years.The water quality safety of large andmedium reservoirs increasingly becomes the focus of public concern.Field test has proved that ...Reservoirs have been served as the major source of drinking water for dozens of years.The water quality safety of large andmedium reservoirs increasingly becomes the focus of public concern.Field test has proved that water-lifting and aeration system(WLAS)is a piece of effective equipment for in situ control and improvement of water quality.However,its intrinsic bioremediation mechanism,especially for nitrogen removal,still lacks in-depth investigation.Hence,the dynamic changes inwater quality parameters,carbon source metabolism,species compositions and co-occurrence patterns ofmicrobial communitieswere systematically studied in Jinpen Reservoir within a wholeWLAS running cycle.TheWLAS operation could efficiently reduce organic carbon(19.77%),nitrogen(21.55%)and phosphorus(65.60%),respectively.Biolog analysis revealed that the microbialmetabolic capacitieswere enhanced viaWLAS operation,especially in bottomwater.High-throughput sequencing demonstrated that WLAS operation altered the diversity and distributions of microbial communities in the source water.The most dominant genus accountable for aerobic denitrification was identified as Dechloromonas.Furthermore,network analysis revealed that microorganisms interacted more closely through WLAS operation.Oxidation-reduction potential(ORP)and total nitrogen(TN)were regarded as the two main physicochemical parameters influencing microbial community structures,as confirmed by redundancy analysis(RDA)and Mantel test.Overall,the results will provide a scientific basis and an effective way for strengthening the in-situ bioremediation of micro-polluted source water.展开更多
We perform a systematic study on the effect of non-uniform track efficiency correction in higher-order cumulant analysis in heavy-ion collisions.Through analytical derivation,we find that the true values of cumulants ...We perform a systematic study on the effect of non-uniform track efficiency correction in higher-order cumulant analysis in heavy-ion collisions.Through analytical derivation,we find that the true values of cumulants can be successfully reproduced by the efficiency correction with an average of the realistic detector efficiency for particles with the same charges within each single phase space.The theoretical conclusions are supported by a toy model simulation by tuning the non-uniformity of the efficiency employed in the track-by-track efficiency correction method.The valid averaged efficiency is found to suppress the statistical uncertainties of the reproduced cumulants dramatically.Thus,usage of the averaged efficiency requires a careful study of phase space dependence.This study is important for carrying out precision measurements of higher-order cumulants in heavy-ion collision experiments at present and in future.展开更多
The party-building work for college students is of great significance,as it is a crucial component of higher education party building,concerning the cultivation of socialist builders and successors,and occupies a key ...The party-building work for college students is of great significance,as it is a crucial component of higher education party building,concerning the cultivation of socialist builders and successors,and occupies a key position in the development of the Party.However,current research on its quality evaluation is insufficient.This study focuses on this issue and aims to construct a scientifically effective evaluation system.By reviewing related literature,the concepts and research status of party building in colleges are clarified,revealing deficiencies in existing evaluation systems regarding indicator selection,evaluation methods,and dynamic adaptability.The research design constructs an evaluation system framework from four dimensions:organizational work of party building,activity implementation,party member cultivation,and the role exertion of party members.The Analytic Hierarchy Process(AHP)is applied to determine indicator weights,with samples selected based on the principles of diversity and representativeness.Questionnaires are distributed through various channels,and multiple statistical analysis methods are employed to validate the system.The results show clear weight distributions for each dimension,with satisfactory outcomes from confirmatory factor analysis and regression analysis.However,the system still faces issues such as the operability of indicators needing improvement,unreasonable weight distribution,and insufficient consideration of dynamics and innovation.Future research can further advance by strengthening dynamic update mechanisms,applying emerging technologies,and enhancing inter-university cooperation.展开更多
基金This work was supported by National Key Research and Development Program of China(Nos.2018YFE0205200,2018YFE0104700,and 2020YFE0202002)National Natural Science Foundation of China(No.11890712)+2 种基金Natural Science Foundation of Anhui Province(No.1808085J02)Fundamental Research Funds for the Central Universities(No.WK2030000013)the Project funded by the China Postdoctoral Science Foundation(No.2019M652177).
文摘We present a comprehensive study on the individual sources of an inclusive photon production during high-energy hadronic collisions.The cross section and invariant yields of inclusive photons are obtained as a function of pT at mid-rapidity(|y|<0.5)in p+p and Au+Au collisions at√SNN=200GeVrespectively.These results provide crucial inputs to separate measurements of open bottom and charm hadron yield suppression in heavyion collisions,which are used to test the mass hierarchy of the parton energy loss in the quark gluon plasma created during these collisions.The procedure developed in this study can also be applied to other measurements of electrons from an open heavy-flavor hadron decay,such as the collective flow in the RHIC beam energy scan program.
基金supported by the National Natural Science Foundation of China(No.51979217)the National Key Research and Development Program of China(No.2019YFD1100101)the Shaanxi Provincial Key Research and Development Project(Nos.2019ZDLSF06-01 and 2019ZDLSF06-02)。
文摘Naturally complete mixing promotes the spontaneous redistribution of dissolved oxygen(DO),representing an ideal state for maintaining good water quality,and conducive to the biomineralization of organic matter.Water lifting aerators(WLAs)can extend the periods of complete mixing and increase the initial mixing temperature.To evaluate the influence of artificial-induced continuously mixing on dissolved organic matter(DOM)removal performance,the variations of DOM concentrations,optical characteristic,environmental factors were studied after approaching the total mixing status via WLAs operation.During this process,the dissolved organic carbon reduced by 39.18%,whereas the permanganate index decreased by 20.47%.The optical properties indicate that the DOM became more endogenous and its molecular weight decreased.Based on the results of the Biolog Eco Plates,the microorganisms were maintained at a relatively high metabolic activity in the early stage of induced mixing when the mixing temperature was relatively high,whereas DOM declined at a high rate.With the continuous decrease in the water temperature,both the metabolic capacity and the diversity of aerobic microorganisms significantly decreased,and the rate of organic matter mineralization slowed down.The results of this study demonstrate that the artificial induced mixing largely enhanced the removal DOM performance by providing a long period of aerobic conditions and higher initial temperature.
基金This work was supported by the National Key Research and Development Program of China(No.2019YFD1100101)the National Natural Science Foundation of China(No.51979217)+2 种基金the Shaanxi Provincial Key Research and Development Program(No.2019ZDLSF06-03)the Youth Innovation Team of Shaanxi Universities in 2020(PI:Dr.Haihan Zhang)the Youth Innovation Team of Shaanxi Universities in 2021(No.21JP061).
文摘Reservoirs have been served as the major source of drinking water for dozens of years.The water quality safety of large andmedium reservoirs increasingly becomes the focus of public concern.Field test has proved that water-lifting and aeration system(WLAS)is a piece of effective equipment for in situ control and improvement of water quality.However,its intrinsic bioremediation mechanism,especially for nitrogen removal,still lacks in-depth investigation.Hence,the dynamic changes inwater quality parameters,carbon source metabolism,species compositions and co-occurrence patterns ofmicrobial communitieswere systematically studied in Jinpen Reservoir within a wholeWLAS running cycle.TheWLAS operation could efficiently reduce organic carbon(19.77%),nitrogen(21.55%)and phosphorus(65.60%),respectively.Biolog analysis revealed that the microbialmetabolic capacitieswere enhanced viaWLAS operation,especially in bottomwater.High-throughput sequencing demonstrated that WLAS operation altered the diversity and distributions of microbial communities in the source water.The most dominant genus accountable for aerobic denitrification was identified as Dechloromonas.Furthermore,network analysis revealed that microorganisms interacted more closely through WLAS operation.Oxidation-reduction potential(ORP)and total nitrogen(TN)were regarded as the two main physicochemical parameters influencing microbial community structures,as confirmed by redundancy analysis(RDA)and Mantel test.Overall,the results will provide a scientific basis and an effective way for strengthening the in-situ bioremediation of micro-polluted source water.
基金Supported by National Key Research and Development Program of China(2018YFE0205200,2018 YFE0104700,2020YFE0202002)Natural Science Foundation of China(11890711,11890712,12122505,11828501,11861131009)+1 种基金Anhui Provincial Natural Science Foundation(1808085J02)Innovation Fund of Key Laboratory of Quark and Lepton Physics(QLPL2020P01)。
文摘We perform a systematic study on the effect of non-uniform track efficiency correction in higher-order cumulant analysis in heavy-ion collisions.Through analytical derivation,we find that the true values of cumulants can be successfully reproduced by the efficiency correction with an average of the realistic detector efficiency for particles with the same charges within each single phase space.The theoretical conclusions are supported by a toy model simulation by tuning the non-uniformity of the efficiency employed in the track-by-track efficiency correction method.The valid averaged efficiency is found to suppress the statistical uncertainties of the reproduced cumulants dramatically.Thus,usage of the averaged efficiency requires a careful study of phase space dependence.This study is important for carrying out precision measurements of higher-order cumulants in heavy-ion collision experiments at present and in future.
基金Supported by the Academic Research Projects of the Management College,Beijing Union University for the Benchmark Construction of National Party BuildingSupported by the Academic Research Projects of Beijing Union University No.ZK10202307。
文摘The party-building work for college students is of great significance,as it is a crucial component of higher education party building,concerning the cultivation of socialist builders and successors,and occupies a key position in the development of the Party.However,current research on its quality evaluation is insufficient.This study focuses on this issue and aims to construct a scientifically effective evaluation system.By reviewing related literature,the concepts and research status of party building in colleges are clarified,revealing deficiencies in existing evaluation systems regarding indicator selection,evaluation methods,and dynamic adaptability.The research design constructs an evaluation system framework from four dimensions:organizational work of party building,activity implementation,party member cultivation,and the role exertion of party members.The Analytic Hierarchy Process(AHP)is applied to determine indicator weights,with samples selected based on the principles of diversity and representativeness.Questionnaires are distributed through various channels,and multiple statistical analysis methods are employed to validate the system.The results show clear weight distributions for each dimension,with satisfactory outcomes from confirmatory factor analysis and regression analysis.However,the system still faces issues such as the operability of indicators needing improvement,unreasonable weight distribution,and insufficient consideration of dynamics and innovation.Future research can further advance by strengthening dynamic update mechanisms,applying emerging technologies,and enhancing inter-university cooperation.
