437 results on '"K. J. Li"'
Search Results
2. How Are the Abnormally Hot Chromosphere and Corona Heated by the Solar Magnetic Fields?
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K. J. Li, J. C. Xu, W. Feng, J. L. Xie, X. J. Shi, and L. H. Deng
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Solar coronal heating ,Solar chromosphere ,Astrophysics ,QB460-466 - Abstract
The corona is a structure possessed by stars, including the Sun. The abnormal heating of the solar corona and chromosphere is one of the greatest mysteries in modern astronomy. While state-of-the-art observations have identified some candidates of magnetic activity events that could be responsible for this abnormal heating, and theoretical studies have proposed various heating modes, a complete physical picture of how they are heated as a whole remains elusive. In this study, the characteristics of the heated corona and chromosphere are investigated, and for the first time, the question of how they are abnormally heated is explicitly answered by analyzing the long-term observations of the global chromosphere in the Ca ii K line and the global corona in the coronal green line. The findings reveal that both the quiet chromosphere and corona are in antiphase with the solar cycle, whereas the active chromosphere and corona are in phase with it. Different parts of the solar corona and chromosphere exhibit significantly different variation characteristics and are found to be heated by different magnetic categories and probably in different modes. This study posits that unraveling the heating mystery is best approached through the lens of magnetic categories, rather than magnetic activity events.
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- 2024
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3. MOVING TOWARD OPEN GEOSPATIAL SYSTEMS: THE UN OPEN GIS INITIATIVE
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M. A. Brovelli, K. J. Li, and K. S. Eom
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Technology ,Engineering (General). Civil engineering (General) ,TA1-2040 ,Applied optics. Photonics ,TA1501-1820 - Abstract
The UN Open GIS Initiative is an ongoing Partnership Initiative leaded by the United Nations Geospatial Operations. The Initiative, established in March 2016, is supported by several UN Member States, UN Field Missions, UN Agencies and technology contributing partners (international organizations, academia, NGOs, and the private sector) and takes full advantage of their expertise.The target is the creation of an extended spatial data infrastructure that meets the requirements of the UN Secretariat (including UN field missions and regional commissions), and then expands to UN agencies, UN operating partners and developing countries. The paper presents the activities done in the past year and the status of the Initiative.
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- 2021
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4. TOWARDS INDOORGML 2.0: UPDATES AND CASE STUDY ILLUSTRATIONS
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A. A. Diakité, S. Zlatanova, A. F. M. Alattas, and K. J. Li
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Technology ,Engineering (General). Civil engineering (General) ,TA1-2040 ,Applied optics. Photonics ,TA1501-1820 - Abstract
Indoor environments differ from outdoor in many aspects. This, added to the limitations faced by other common standards for urban features reinforced the need of setting a dedicated standard for indoor applications. IndoorGML was born in this context to provide the basic concepts, data models, and standard that meet the requirements of indoor spatial applications. Indoor spatial information can be generally classified into two categories: indoor objects such as architectural components (walls, stairs, slabs) and interior facilities (furniture); indoor spaces such as cavities (rooms and corridors) or virtual subdivision (sensor and legal spaces). Handling both information is necessary to support applications ranging from Indoor location-based services (LBS), indoor route analysis or indoor geo-tagging to building and asset management. In this paper, we present the proposed changes to the second version of IndoorGML, under preparation and intended to provide the necessary support for applications using information from those two categories. IndoorGML 2.0 is open to all applications that rely on indoor spaces and require analysis that can be performed on a network, extracted from those spaces utilizing neighbourhood relationships. It follows a model-driven approach, i.e. all concepts are presented by the Unified Modelling Language, from which technical implementations are derived (GML, JSON, SQL, etc.). We present the proposed changes to the previous version, illustrate a way of representing indoor objects other than spaces and discuss several use cases of the standard.
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- 2020
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5. ISSUES ON BUILDING KAZAKHSTAN GEOSPATIAL PORTAL TO IMPLEMENT E-GOVERNMENT
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K. Sagadiyev, H. K. Kang, and K. J. Li
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Technology ,Engineering (General). Civil engineering (General) ,TA1-2040 ,Applied optics. Photonics ,TA1501-1820 - Abstract
A main issue in developing e-government is about how to integrate and organize many complicated processes and different stakeholders. Interestingly geospatial information provides an efficient framework to integrate and organized them. In particular, it is very useful to integrate the process of land management in e-government with geospatial information framework, since most of land management tasks are related with geospatial properties. In this paper, we present a use-case on the e-government project in Kazakhstan for land management. We develop a geoportal to connect many tasks and different users via geospatial information framework. This geoportal is based on open source geospatial software including GeoServer, PostGIS, and OpenLayers. With this geoportal, we expect three achievements as follows. First we establish a transparent governmental process, which is one of main goal of e-government. Every stakeholder monitors what is happening in land management process. Second, we can significantly reduce the time and efforts in the government process. For example, a grant procedure for a building construction has taken more than one year with more than 50 steps. It is expected that this procedure would be reduced to 2 weeks by the geoportal framework. Third we provide a collaborative environment between different governmental structures via the geoportal, while many conflicts and mismatches have been a critical issue of governmental administration processes.
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- 2016
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6. A brief review on the presentation of cycle 24, the first integrated solar cycle in the new millennium
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K. J. Li, W. Feng, H. F. Liang, L. S. Zhan, and P. X. Gao
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Science ,Physics ,QC1-999 ,Geophysics. Cosmic physics ,QC801-809 - Abstract
The status of the extended solar activity minimum, since the second half of 2007, has been briefly instructed to the solar-terrestrial community. Cycle 24 has the most spotless days since cycle 16, and probably even since the modern cycles, latitudes of high-latitude (>35°) sunspots belonging to a new cycle around the minimum time of the cycle are statistically the lowest at present, compared with those of cycle 12 onwards, and there is only one or no sunspots in a month appearing at high latitudes (>20°) for 58 months (from November 2003 to September 2008), which is observed for the first time since cycle 12 onwards. The solar wind velocity and pressure, 10.7 cm solar radio flux, the polar solar magnetic field, solar total irradiance, and so on reach their minima during the 23–24 cycle minimum time. In order to explain the present extreme low activity, we introduced here one possible mechanism using helio-seismology observations. Viewing, from the long-term running of the time scales of both the Gleissberg period and millenniums, the extended solar activity minimum becomes logical. According to the present observations, the cycle 24 should start in November 2008. Solar activity is predicted at being about 30% lower in cycle 24 than in cycle 23, synthesizing the typical predictions of solar activity, including those given by NASA and NOAA. The 24th solar cycle is sluggishly coming and it should be an opportune moment for studying solar physics and solar-terrestrial physics.
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- 2011
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7. Software Verification of New Linear and Nonlinear Models of the Arterial System.
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Verica Radisavljevic-Gajic and John K.-J. Li
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- 2023
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8. Ventricular Ejection Fraction and Global Strains in Connection with the Volume Regulation Graph.
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Peter L. M. Kerkhof, Jacqueline Y. Bell-Beringer, Rienzi A. Diaz-Navarro, John K.-J. Li, and Neal Handly
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- 2023
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9. Pulse Pressure is Sex-Specifically Associated with the Ratio of Diastolic and Systolic Arterial Pressure in Healthy Children, and Differently During Night Versus Daytime Recordings.
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Peter L. M. Kerkhof, Elke Wühl, Rienzi A. Diaz-Navarro, Neal Handly, and John K.-J. Li
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- 2023
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10. Sex-specific Evaluation of Ventricular Ejection Fraction and End-Systolic Volume Applied to Cardiac Resynchronization Therapy.
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Peter L. M. Kerkhof, Rienzi A. Diaz-Navarro, Guy R. Heyndrickx, John K.-J. Li, and Neal Handly
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- 2023
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11. The Ratio of Diastolic and Systolic Arterial Pressure is Associated with Pulse Pressure.
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Peter L. M. Kerkhof, Rienzi A. Diaz-Navarro, Guy R. Heyndrickx, Aleksandra O. Konradi, Evgeny V. Shlyakhto, Neal Handly, and John K.-J. Li
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- 2022
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12. Various Approaches to Define the Volume Intercept of the Ventricular End-Systolic Pressure-Volume Relationship: Implications for Statistical Analysis.
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Peter L. M. Kerkhof, John K.-J. Li, and Neal Handly
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- 2022
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13. Polar Coordinate Description of Blood Pressure Measurements and Implications for Sex-Specific and Personalized Analysis.
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Peter L. M. Kerkhof, Alexandra O. Konradi, Evgeny V. Shlyakhto, Neal Handly, and John K.-J. Li
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- 2019
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14. Augmentation index in the assessment of wave reflections and systolic loading
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Kaya, Mehmet, Balasubramanian, Vignesh, and K-J. Li, John
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- 2019
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15. The quiet chromosphere: differential rotation
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K J Li, M Wan, and W Feng
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Space and Planetary Science ,Astronomy and Astrophysics - Abstract
The solar chromosphere was daily observed in the Ca ii K line at the Mount Wilson Observatory from 1915 August to 1985 July. A digitized data base was created, which includes synoptical maps of the chromosphere in Ca ii intensity from Carrington rotations 827 to 1764. We have used the data base to investigate rotation and its differential of the chromosphere and the quiet chromosphere. The chromosphere is found to rotate faster than sunspots, but the difference in their rotation rates decreases with decreasing latitude, and near the equator they rotate at nearly the same speed. The chromosphere is obviously faster than the quiet photosphere and slightly faster than the quiet chromosphere at low latitudes, but slightly slower than the quiet chromosphere at middle latitudes. The differential degree of the rotation rate at low latitudes, ranging from largest to smallest in order, is found to be: sunspots, the chromosphere, the quiet photosphere, and the quiet chromosphere. The differential of the rotation rate is found to be different in different solar cycles for the chromosphere and the quiet chromosphere. Helioseismology observations suggest that these findings are plausible.
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- 2023
16. Ventricular Ejection Fraction and Global Strains in Connection with the Volume Regulation Graph
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Kerkhof, Peter L.M., primary, Bell-Beringer, Jacqueline Y., additional, Diaz-Navarro, Rienzi A., additional, K-J. Li, John, additional, and Handly, Neal, additional
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- 2023
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17. Hemodynamic determinants and ventriculo-arterial coupling are sex-associated in heart failure patients.
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Peter Kerkhof, Guy R. Heyndrickx, and John K.-J. Li
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- 2016
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18. Dynamics of the Vascular System: Interaction with the Heart
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John K-J Li
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- 2018
19. Various Approaches to Define the Volume Intercept of the Ventricular End-Systolic Pressure-Volume Relationship
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Peter L M, Kerkhof, John K-J, Li, Neal, Handly, Radiology and nuclear medicine, and ACS - Heart failure & arrhythmias
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Systole ,Humans ,Ventricular Function ,Blood Pressure ,Stroke Volume ,Myocardial Contraction - Abstract
Ventricular pump function is often characterized by the (non)linear end-systolic pressure-volume relationship (ESPVR). For each working point on that curve the tangent along with the intercept (Vo) reflect contractile state. Vo on the abscissa is an extrapolated point without physiological meaning, and may be negative. To obtain positive values for the intercept, investigators often choose a non-zero pressure level. Although this preference is mathematically sound, we demonstrate that statistical evaluations may yield different results, depending on the pressure level selected. Published data on 17 cardiac patients representing three diagnostic groups were analyzed, showing dicrotic notch pressure based values -14
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- 2022
20. Propagation of uncertainty and analysis of signal-to-noise in nonlinear compliance estimations of an arterial system model.
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Timothy S. Phan and John K.-J. Li
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- 2014
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21. Inadequacy of Augmentation Index for Monitoring Arterial Stiffness: Comparison with Arterial Compliance and Other Hemodynamic Variables
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Mehmet Kaya, Vignesh Balasubramanian, and John K.-J. Li
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Dogs ,Vascular Stiffness ,Hemodynamics ,Biomedical Engineering ,Animals ,Blood Pressure ,Arteries ,Pulse Wave Analysis ,Cardiology and Cardiovascular Medicine ,Compliance - Abstract
Augmentation Index (AIAortic pressure and flow datasets (n = 42) from mongrel dogs were obtained from our experiments and Mendeley Data under various conditions. Arterial compliances based on the Windkessel model (CAIAI
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- 2022
22. Bionic Age Hemodynamic Monitoring: Invasive, Non-invasive, Wearable, and Wireless Applications
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John K.-J. Li
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- 2023
23. Improvement Study of Hydrogen Embrittlement Resistance of Al-Si Coated Hot Stamped Components
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Y. Feng, G. J. Huang, H. Song, H. Z. Lu, X. Gao, M. T. Ma, L. Cui, Z. G. Deng, Y. P. Sun, K. J. Li, P. G. Cao, Z. H. Cai, and S. Liu
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- 2023
24. Effective arterial elastance and arterial compliance in heart failure patients with preserved ejection fraction.
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Peter L. M. Kerkhof, John K.-J. Li, and Guy R. Heyndrickx
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- 2013
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25. Patient-friendly detection of early peripheral arterial diseases (PAD) by budgeted sensor selection.
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Qiaojun Wang, Kai Zhang 0001, Ivan Marsic, John K.-J. Li, and Fabian Moerchen
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- 2012
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26. Short-Term Risk Estimation and Treatment Planning for Cardiovascular Disease Patients after First Diagnostic Catheterizations with Machine Learning Models
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Guochang Ye, Peshala Thibbotuwawa Gamage, Vignesh Balasubramanian, John K.-J. Li, Ersoy Subasi, Munevver Mine Subasi, and Mehmet Kaya
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Fluid Flow and Transfer Processes ,Process Chemistry and Technology ,General Engineering ,cardiovascular disease ,diagnostic catheterizations ,machine learning ,risk estimation ,treatment planning ,General Materials Science ,Instrumentation ,Computer Science Applications - Abstract
Cardiovascular disease (CVD) is the leading cause of death. CVD symptoms may develop within a short-term after diagnostic catheterizations and lead to life-threatening situations. This study is the first to apply machine learning (ML) methods to predict subsequent adverse cardiovascular events/treatments for patients within 90 days after their first diagnostic catheterizations. Patients (6539) without previously diagnosed CVD were selected from the DukeCath dataset. Ten ML methods were used. Three medical outcomes, varied cardiovascular-related scenarios, percutaneous coronary intervention (PCI) treatments, and coronary artery bypass graft (CABG) treatments, were targeted individually. With patient medical history, vital measurements, laboratory results, and the number of diseased vessels, the random forest classifier (RFC) performed best in predicting combined cardiovascular scenarios, including CABG, PCI, valve surgery (VS), stroke, and myocardial infarction (MI), achieving accuracy: 88.17%, sensitivity: 89.72%, specificity: 86.98%, area under receiver operating characteristic (AUROC): 91.68%. The gradient boosting classifier (GBC) performed best in predicting the PCI and CABG treatments (PCI treatments: accuracy: 89.21%, sensitivity: 90.20%, specificity: 88.74%, AUROC: 94.16%; CABG treatments: accuracy: 93.86%, sensitivity: 77.57%, specificity: 96.23%, AUROC: 96.47%). Our results show that the ML applications effectively identify high-risk patients, can provide diagnostic assistance in cardiovascular treatment planning, and improve outcomes in cardiovascular medicine.
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- 2023
27. Machine Learning-Based Continuous Intracranial Pressure Prediction for Traumatic Injury Patients
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Guochang Ye, Vignesh Balasubramanian, John K-J. Li, and Mehmet Kaya
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Machine Learning ,Intracranial Pressure ,Brain Injuries ,Brain Injuries, Traumatic ,Biomedical Engineering ,Humans ,General Medicine ,Neural Networks, Computer - Published
- 2021
28. Intracranial Pressure Prediction with a Recurrent Neural Network Model
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Guochang Ye, Vignesh Balasubramanian, John K-J. Li, and Mehmet Kaya
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- 2021
29. Study of the process e+e−→ϕη at center-of-mass energies between 2.00 and 3.08 GeV
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Y. Schelhaas, S. Marcello, Y. Zeng, Zhe Sun, H. R. Qi, Q. Q. Song, Lu F. X., F. De Mori, Y. P. Guo, Y. B. Chen, Y. L. Fan, W. B. Yan, J. Z. Zhang, He K. L., Serkant Ali Cetin, C. L. Luo, H. S. Sang, J. J. Song, Q. Zhou, L. Sun, X. Y. Zhou, Hu J. F., J. B. Jiao, H. K. Sun, S. Qian, Q. An, Jialun Ping, B. Zhong, L. B. Guo, G. X. Sun, Li Yan, Liangbin Li, X. Y. Zhang, X. L. Wang, J. B. Liu, Y. J. Sun, S. Pacetti, F. Feldbauer, X. F. Wang, Ma X. X., H. F. Shen, Ye M. H., P. W. Luo, Z. Jiao, G. Y. Tang, T. T. Han, J. F. Shangguan, Meng Wang, Muhammad Irshad, X. H. Xie, Y. H. Tan, Xujin Yuan, S. J. Zhao, Jie Zhao, Z. L. Huang, X. L. Gao, M. H. Ye, C. H. Heinz, Z. A. Liu, Du S. X., C. Zhong, Yu B. X., A. N. Zhu, Xu Q. J., S. B. Liu, Alexey Zhemchugov, Z. H. Wang, V. Prasad, Ma R. T., Y. Yuan, S. L. Yang, F. A. Harris, W. L. Chang, Y. Ding, L. Zhang, H. J. Wang, A. Bortone, Xuanhong Lou, Y. H. Zheng, Viktor Thorén, F. H. Liu, M. Y. Dong, L. L. Wang, Y. Ban, M. Ablikim, Y. Nefedov, Mo Y. J., Nasser Kalantar-Nayestanaki, Nicolas Berger, Cong-Feng Qiao, M. Qi, Ji Q. P., H. Cai, L. Q. Huang, G. R. Liao, H. Leithoff, G. Y. Hou, H. J. Yang, B. J. Liu, Yue Pan, T. Y. Xing, D. Y. Chen, Y. B. Zhao, I. Balossino, Q. Liu, W. Shan, C. Dong, S. Sosio, C. Schnier, Y. Q. Wang, H. Y. Zhang, Xu G. F., X. S. Kang, J. Dong, S. P. Wen, L. D. Liu, A. Lavania, Li X. H., X. S. Qin, X. T. Huang, X. R. Zhou, F. Li, Yanping Huang, J. W. Zhang, R. Aliberti, Xu Shan, Qi K. H., X. D. Zhang, Li L. K., W. Kühn, Ma H. L., Y. H. Zhang, G. Rong, Yu J. S., J. H. Zou, Y. C. Zhu, Z. Y. You, G. F. Chen, Z. A. Zhu, J. Y. Zhang, I. B. Nikolaev, L. Gong, L. G. Xia, A. Amoroso, J. H. Yin, Lu H. J., M. Shao, C. X. Yue, S. S. Sun, Joachim Pettersson, X D Shi, Xiangcheng Pan, Li J. L., M. Kuemmel, Matthew Glenn Kurth, V. Rodin, Y. J. Mao, Z. Y. Wang, T. Liu, J. F. Qiu, Teresa Lenz, L. Fava, Zhi Yang, S. Nisar, Zhenxiong Yuan, C. J. Tang, Y. K. Heng, Yi Jin, X. F. Cui, M. Scodeggio, Hu H. M., A. Dbeyssi, H. X. Yang, I. Garzia, Qu S. Q., Yu C. X., Li D. M., M. Himmelreich, C. P. Shen, Y. Hu, Ma M. M., Y. P. Lu, S. Janchiv, F. Nerling, R. E. Mitchell, H. Xiao, Ge P. T., Z. X. Meng, T. Held, W. Imoehl, Angelo Rivetti, X. H. Liu, L. Q. Qin, M. G. Zhao, Y. H. Yang, R. P. Guo, J. Zhu, C. X. Liu, Wu J. F., Xu Y. C., B. Wang, X. Wu, A. Sarantsev, D. H. Wei, J. S. Lange, P. Patteri, Lu J. G., A. Calcaterra, Z. G. Zhao, L. Z. Liao, Peilian Liu, W. H. Wang, M. Fritsch, Y. Y. Wang, Yu Bai, A. A. Zafar, Lingxuan Zhang, Y. X. Tan, M. Kavatsyuk, Li J. S., H. H. Zhang, Christoph Herold, T. Yu, K. H. Rashid, G. S. Huang, M. Rolo, X. P. Qin, H. C. Shi, X. K. Zhou, Mo X. H., C.-H. Rosner, Lu X. L., U. Wiedner, I. Denysenko, Ma F. C., Li S. Y., R. Kappert, W. J. Zhu, Y. T. Liang, Rinaldo Baldini Ferroli, S. J. Chen, L. Y. Dong, J. G. Messchendorp, F. F. Sui, X. D. Shi, Dan Wang, B. X. Zhang, K. J. Li, Ji X. L., R. Kiuchi, Qi H. R., D. C. Shan, Ma R. Q., F. Cossio, K. J. Zhu, G. Wilkinson, Z. Qian, Wu L. J., Guangyi Zhang, M. Albrecht, Z. J. Chen, Wenbin Qian, C. Geng, Ma X. Y., J. B. Zhao, R. S. Shi, Y. B. Liu, Q. P. Ji, M. Lellmann, S. Maldaner, A. G. Denig, H. H. Liu, Wu L. H., H. B. Liu, S. Jin, Zujian Wang, W. H. Tian, Y. K. Sun, Y. G. Gao, B. Zheng, R. G. Ping, Li P. R., I. R. Boyko, W. S. Cheng, Yao Wang, Ke B. C., S. Spataro, B. Kopf, W. Y. Han, J. Tang, G. Li, J. L. Liu, Ma Q. M., X. Q. Hao, Y. T. Tian, S. H. Zhang, X. Y. Shen, Yunlong Zhang, M. H. Liu, Walter Ikegami Andersson, S. Nakhoul, H. M. Liu, J. M. Zhang, D. Bettoni, Su P. P., J. L. Zhang, S. Jaeger, G. F. Cao, Jimin Zhao, P. Larin, K. Goetzen, A. Q. Guo, C. Q. Feng, X. R. Chen, Jianping Zheng, M. X. Luo, Dylan Jaide White, C. F. Redmer, C. W. Wang, M. Bertani, D. V. Dedovich, N. Y.-U. Muchnoi, Z. Y. Deng, L. Yang, Hai-Tian Wang, K. Y. Liu, W. M. Song, J. J. Zhang, M. Destefanis, A. Q. Zhang, H. B. Jiang, W. P. Wang, W. Gradl, Y. X. Song, Z. H. Qin, R. Kliemt, A. Mangoni, A. Guskov, Qi T. Y., T. J. Min, G. Cibinetto, Y. X. Zhao, Y. H. Xie, M. Maggiora, Z. L. Hou, R. E. de Boer, M. Q. Jing, G. Felici, C. Z. Yuan, N. Cao, M. Kuessner, Ji X. B., T. Johansson, J. F. Chang, Li X. L., Y. F. Wang, Tao Sun, O. B. Kolcu, X. Dong, X. Cai, G. A. Chelkov, L. Lavezzi, Xu X. P., Z. Ning, S. Y. Xiao, An M. R., Gu Y. T., Xu Yan, Li Z. Y., H. J. Li, L. Wollenberg, Xingchao Dai, F. E. Maas, T. Hu, Gu L. M., O. Bakina, P. X. Shen, Z. H. Lei, F. Weidner, Z. Wu, Q. Ouyang, X. H. Bai, Zhiqing Zhang, S. S. Fang, C. Y. Guan, Li H. J., Li H. B., Li J. Q., E. M. Gersabeck, J. Q. Zhang, X. Zeng, T. Hussain, H. Liang, X. L. Luo, W. X. Gong, Fu C. D., A. Pathak, K. Begzsuren, C. H. Li, F. Bianchi, Li W. D., X. Q. Li, K. Ravindran, Gu M. H., D. Y. Liu, Jie Feng, Tong Zhu, P. Kiese, Yuan Hou, R. A. Briere, X. S. Jiang, J. Libby, S. Pogodin, Wei Xu, P. Adlarson, Yaquan Fang, M. Greco, Shou-hua Zhu, John Jake Lane, Guoqiang Yu, Su K. X., K. Schoenning, B. S. Zou, Q. A. Malik, Magnus Wolke, Y. F. Liang, Z. Y. Zhang, Y. G. Xie, Li W. G., L. Zhao, Xiao-Rui Lyu, Andrzej Kupsc, M. L. Chen, Wen-Zhao Liu, Ji Y. Y., I. Uman, J. Bloms, G. Mezzadri, W. C. Yan, N. Hüsken, Zhiqiang Liu, M. N. Achasov, L. P. Zhou, Z. P. Mao, Z. J. Xiao, J. Fang, R. Farinelli, Libo Zhang, H. Muramatsu, M. Pelizaeus, T. Holtmann, J. Y. Liu, F. Liu, Y. N. Gao, Y. Zhang, Feng Yan, Tao Luo, Zhi Zeng, Shulei Zhang, H. S. Chen, H. L. Dai, Li C. H., S. Ahmed, Y. X. Yang, Ke Wang, W. Y. Sun, Q. Zhao, X. Sun, Y. Z. Sun, Li Yuan, I. K. Keshk, C. X. Lin, Alexander Leon Gilman, M. Rump, Gang Zhao, R. Poling, F. H. Heinsius, Lu J. D., Ma L. L., L. Koch, A. Khoukaz, Krisztian Peters, S. Malde, M. Z. Wang, J. X. Teng, Lu Y. P., Haiping Peng, and J. F. Sun
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Physics ,Particle physics ,Range (particle radiation) ,Photon ,Luminosity (scattering theory) ,Branching fraction ,010308 nuclear & particles physics ,Electron–positron annihilation ,Measure (mathematics) ,01 natural sciences ,Nuclear physics ,Cross section (physics) ,0103 physical sciences ,Invariant mass ,High Energy Physics::Experiment ,Vector meson ,Center of mass ,Nuclear Experiment ,010306 general physics ,Energy (signal processing) - Abstract
We study the process e^+e^− → π^+π^−ηγ, where the photon is radiated from the initial state. About 8000 fully reconstructed events of this process are selected from the BABAR data sample with an integrated luminosity of 469 fb^(-1). Using the π^+π^−η invariant mass spectrum, we measure the e^+e^− → π^+π^−η cross section in the e^+e^− center-of-mass energy range from 1.15 to 3.5 GeV. The cross section is well described by the Vector-Meson dominance model with four ρ-like states. We observe 49±9 events of the J/ψ decay to π^+π^−η and measure the product Γ_(J/Ψ → e^+e^−)B_(J/Ψ → π^+π^−η) = 2.34 ± 0.43_(stat) ± 0.16_(syst) eV.
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- 2021
30. Myocardial oxygen balance during acute normovolemic hemodilution: A novel compartmental modeling approach
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John K-J. Li, Vignesh Balasubramanian, Dorene A. O'Hara, and Mehmet Kaya
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0301 basic medicine ,medicine.medical_specialty ,Ischemia ,Cardiac index ,chemistry.chemical_element ,Health Informatics ,Hematocrit ,Oxygen ,03 medical and health sciences ,Oxygen Consumption ,0302 clinical medicine ,Internal medicine ,Heart rate ,medicine ,Animals ,Humans ,Hemodilution ,medicine.diagnostic_test ,business.industry ,Myocardium ,Hemodynamics ,Models, Cardiovascular ,Blood flow ,medicine.disease ,Computer Science Applications ,030104 developmental biology ,chemistry ,Anesthetic ,Cardiology ,Hemoglobin ,business ,030217 neurology & neurosurgery ,medicine.drug - Abstract
Background Hemodilution was introduced initially as a blood conservation technique to reduce allogeneic blood transfusion in patients undergoing surgical procedures. Although the technique has been approved by the National Institute of Health consensus panel, limits of hemodilution under anesthetic conditions have not been established as they have in animal models. Methods A novel multi-compartmental modeling approach has been proposed that includes the effect of anesthesia to quantify the effect of hemodilution on myocardial oxygen balance during myocardial ischemia. Results The results showed that isovolemic hemodilution would cause detrimental effects around a hematocrit of 15%. Even though the fall in oxygen content caused by the decrease in hemoglobin concentration was compensated by an increase in coronary blood flow induced by hypoxic vasodilation and decreased viscosity, the endocardial tissue received less oxygen compared to the epicardial regions, and this sub-endocardial ischemia eventually led to cardiac failure. Statistical analysis also showed that the type of acellular replacement fluid failed to affect the heart rate, the stroke index or the cardiac index during hemodilution, and supplemental oxygen improved the endocardial oxygen supply. Conclusion The model validates the clinical conclusions that sub-endocardial ischemia causes cardiac failure under extreme hemodilution conditions and the model can also be easily integrated into other human simulators.
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- 2019
31. A Tutorial to Approximately Invert the Sumudu Transform
- Author
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John K-J. Li, Glen Atlas, and Adam Work
- Subjects
Power series ,Factorial ,Laplace transform ,Applied mathematics ,Inverse transform sampling ,General Medicine ,Function (mathematics) ,Differential (infinitesimal) ,Mathematics ,Convolution ,Cauchy product - Abstract
Unlike the traditional Laplace transform, the Sumudu transform of a function, when approximated as a power series, may be readily inverted using factorial-based coefficient diminution. This technique offers straightforward computational advantages for approximate range-limited numerical solutions of certain ordinary, mixed, and partial linear differential and integro-differential equations. Furthermore, discrete convolution (the Cauchy product), may also be utilized to assist in this approximate inversion method of the Sumudu transform. Illustrative examples are provided which elucidate both the applicability and limitations of this method.
- Published
- 2019
32. Quantitative cardiology and computer modeling analysis of heart failure in systole and in diastole
- Author
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John K-J. Li, Peter L. M. Kerkhof, Mehmet Kaya, Radiology and nuclear medicine, and ACS - Heart failure & arrhythmias
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Male ,0301 basic medicine ,Cardiac function curve ,medicine.medical_specialty ,Systole ,Ischemia ,Diastole ,Hemodynamics ,Health Informatics ,030204 cardiovascular system & hematology ,03 medical and health sciences ,0302 clinical medicine ,Internal medicine ,medicine ,Humans ,Computer Simulation ,Aorta ,Heart Failure ,Ejection fraction ,business.industry ,Models, Cardiovascular ,Heart ,medicine.disease ,Computer Science Applications ,030104 developmental biology ,Aortic valve stenosis ,Heart failure ,Heart Function Tests ,Hypertension ,Cardiology ,Female ,business - Abstract
Clinical cardiology diagnosis relies on the assessment of a set of specified parameters. Computer modeling is a powerful tool that can provide a realistic interpretation of the variations of these parameters through computational quantification. Here we present an overview of different aspects of diagnosis that are based on evaluation of either systolic or diastolic cardiac abnormalities. Emphasis is on the quantitative hemodynamic assessment and modeling. For myocardial ischemia and stunning, multi-scale modeling from single fiber to the global ventricular level is demonstrated. The classic force-velocity-length relations are found to be applicable even for modern quantitative cardiac assessment. The reduced systolic shortening and delayed diastolic relaxation associated with stunning and ischemia can be reproduced even at the single muscle fiber level. In addition, ejection fraction (EF) which has been viewed as an important index in assessing the state of the heart, is found to be inadequate for the diagnosis and assessment of heart failure (HF) in differentiation of HF patients with reduced EF (HFrEF) or with preserved EF (HFpEF). Parameters that relate to structural changes whether at fiber or the global levels are found to be most appropriate to quantify the cardiac function, hence for its quantitative diagnosis. Parameters that govern heart-arterial system interaction when the LV is single-loaded with pressure-overloaded LV hypertrophy or double-loaded as in LVH with aortic valve stenosis are also quantified. It is shown that a computational modeling approach can be invaluable in delineating parameters that are critical for quantitative cardiology diagnosis.
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- 2018
33. Calibration strategy of the JUNO experiment
- Author
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Andrea Barresi, Muhammad Usman Rajput, Chengzhuo Yuan, Demin Li, Cédric Huss, Jie Zhao, Xianghui Yu, W. H. Huang, Feng Gao, Sen Qian, Patrick Kinz, Miao He, Axel Müller, Davit Mayilyan, Utane Sawangwit, Jacques Wurtz, Wenju Huo, Hang Hu, Guanghua Gong, G. Andronico, Giuseppe Verde, Si Ma, Livia Ludhova, Xiaoyu Yang, Lucia Votano, Waqas Muhammad, Oleg Smirnov, Jie Yang, Zhe Ning, Y. X. Zhang, Zhuang Shao, Jun Wang, Martin Dvorak, Hao Liang, Nikolay Morozov, Ara Ioannisian, Qingmin Zhang, Ezio Previtali, Barbara Ricci, Ints Mednieks, Wuming Luo, Rossella Caruso, Diru Wu, Alexander Studenikin, Sadia Marium, Jingbo Zhang, M. Settimo, A. Popov, Enrico Bernieri, Xiaowei Liu, Yumei Zhang, Anut Sangka, Feipeng Ning, F. Z. Qi, Simon Blyth, Anatael Cabrera, Antonio Insolia, Donglian Xu, Amir N. Khan, Minghao Gu, Daniel Liebau, Shouyang Hu, Thilo Birkenfeld, Mengyun Guan, Gérard Claverie, Xin Mao, Xingtao Huang, Guoqing Zhang, Markus Robens, Jari Joutsenvaara, Zhibing Li, Can Fang, Nuanwan Sanguansak, Andrey Formozov, Ugur Yegin, Yuekun Heng, Xiaohui Qian, Riccardo Bruno, Zafar Yasin, Selma Conforti Di Lorenzo, Weidong Li, Xiaonan Li, Cédric Schwab, Yuguang Xie, Narumon Suwonjandee, Michael Wurm, Teerapat Payupol, Andrea Serafini, Chunhao Huang, Fangliang Wu, Haoqi Lu, Di Jiang, Salvatore Costa, Yue Meng, Y. Sun, S. Dusini, Mathieu Roche, Stefano Maria Mari, S. Parmeggiano, N. Raper, M. A. Szelezniak, W. J. Wu, Jingbin Lu, Heike Enzmann, Nan Li, Zhonghua Qin, Min Liu, Q. J. Li, Tobias Heinz, Frédéric Druillole, Qun Wu, Anbo Yang, Hongjuan Liu, Sukit Limpijumnong, Peihuai Yi, Cecilia Landini, Jonathan Miller, Yu Xu, Agnese Martini, Vito Antonelli, A. Bolshakova, Alexandre Göttel, X. L. Ji, Yuanqing Wang, Haonan Gan, Lei Yang, Sebastiano Aiello, Leonidas Kalousis, Andre Zambanini, R. T. Lei, Stefan van Waasen, Dmitry Selivanov, Khanchai Khosonthongkee, Yanke Cai, F. Yermia, Yuman Wang, Rong Zhao, Jian Wang, E. Meroni, Filippo Marini, Narine Kazarian, Y. F. Wang, Shanfeng Li, Q. An, Alessandra Re, Chung-Hsiang Wang, Agnese Giaz, Tingxuan Zeng, Guihong Huang, Andrej Babic, Fabio Mantovani, Fang Liu, Richard Ford, Zhe Wang, Christian Grewing, Antonio Bergnoli, Warintorn Sreethawong, Georgy Donchenko, S. Krokhaleva, Mengzhao Li, Rupert Leitner, Monica Sisti, Domizia Orestano, Mario Buscemi, Paolo Montini, Marco Grassi, Zeyuan Yu, Tobias Lachenmaier, Jianrun Hu, Victor Lebrin, Angel Abusleme, Boxiang Yu, Tao Li, Maciej Slupecki, Boonrucksar Soonthornthum, Catia Clementi, Marco Giammarchi, Francesco Manzali, B. Z. Hu, Virginia Strati, Alexey Krasnoperov, Zhang Chen, Hua Zheng, P. Saggese, Minshan Zheng, Xiaolu Ji, Gisele Martin-Chassard, Matthias Raphael Stock, Pablo Walker, Jose Busto, Agustin Campeny, Burin Asavapibhop, Yinhong Zhang, S. B. Liu, Vitaly Shutov, Barbara Clerbaux, Peng Zhang, Zhengyun You, Yayun Ding, Shubin Liu, Ayut Limphirat, S. Dmitrievsky, Siyu Jian, S. Sanfilippo, Cristina Tuve, Shoukang Qiu, Shifeng Sun, Jie Ren, Sébastien Leblanc, Po-An Chen, Xubo Ma, Safeer Hussain, Guangpeng An, Nicomede Pelliccia, Yuhang Guo, Shan Zeng, Konstantin A. Kouzakov, Shaojing Hou, Jing Xu, X. H. Guo, Feiyang Zhang, Dongqin Zheng, Ilya Butorov, Maria Gul, Kunyu Wang, Claudio Lombardo, Zhi Deng, Zhiyan Cai, Yu Gu, Yufei Xi, K. Loo, R. Brugnera, Shu Luo, Jiaheng Zou, Ran Han, Giancarlo Troni, M. H. Ye, Xiaoxu Lu, Fengjiao Luo, H. D. Liu, Haitao Li, Fei Li, Julanan Songwadhana, Xiaomei Zhang, Fengpeng An, X. D. Ruan, Chunxu Yu, Vadim Vedin, Mauro Mezzetto, Jiaqi Li, Caren Hagner, Shu Zhang, Wander Baldini, Yangheng Zheng, Antonio Budano, Michele Montuschi, Zheng Wang, Qin Liu, Pierre-Alexandre Petitjean, Xuefeng Ding, H. R. Pan, Lukas Fajt, Jingyan Shi, David Meyhöfer, Fanrong Xu, Marco Bellato, Zhenyu Zhang, S. J. Zhao, Clément Bordereau, Yan Zhang, Bayarto Lubsandorzhiev, Guang Luo, Benda Xu, Xiangyue Wang, Christophe De La Taille, Miao Yu, Christian Roth, Nina Parkalian, Andrea Fabbri, Fausto Ortica, João Pedro Athayde Marcondes de André, Y. Wang, Liangjian Wen, S. X. Du, Jian Tang, Frederic Lefevre, Tao Hu, Vasily Gromov, Guofu Cao, Liang Zhan, E. Doroshkevich, Steven Chan-Fai Wong, Amélie Fournier, Apimook Watcharangkool, Jinchang Liu, Qian Liu, Yongbo Huang, Bayu Dirgantara, Chiara Sirignano, Qiumei Ma, Yi Wang, A. Sadovsky, Xichao Ruan, Caishen Wang, G. Settanta, Flavio Dal Corso, Beatrice Jelmini, Guillaume Vanroyen, Baojun Yan, Ruhui Li, Mikhail Smirnov, Huan Yang, Z. Wu, Xiao Cai, Yun Chang, Meng Wang, Yufeng Li, Tianchi Zhao, K. L. Jen, Li-Cheng Feng, Guey-Lin Lin, Shuxiang Lu, Massimiliano Nastasi, Thomas Adam, Rizwan Ahmed, David Blum, Marco Fargetta, Didier Auguste, Weiguo Li, Jian Fang, Patrick Hellmuth, Muhammad Akram, Hui Liu, Tomas Tmej, G. X. Sun, Fengyi Zhao, Christian Wysotzki, Wladyslaw Henryk Trzaska, Achim Stahl, Sylvie Blin, Yin Xu, Alexander Tietzsch, Fedor Šimkovic, Haiping Peng, Ziping Ye, Baobiao Yue, A. Sotnikov, Aldo Romani, Anna Chuvashova, Noman Zafar, Tatiana Antoshkina, Wanlei Guo, C. Jollet, Christoph Genster, Sultim Lubsandorzhiev, Y. K. Sun, Xiangwei Yin, Xiaoping Jing, H. Steiger, Muhammad Sohaib Hassan, Cristina Martellini, Wei Wang, B. Viaud, Igor Nemchenok, Zhijian Zhang, Fatma Sawy, Xiaofei Gu, Alexander Olshevskiy, Liang Zong, Pavithra Muralidharan, Xiaomei Li, Alexandr Selyunin, Yu Chen, Jochen Steinmann, Qiang Tang, Daojin Hong, Daniele Corti, Yatian Pei, S. Zhang, Denis Korablev, Yi Chen, Dominique Breton, Franco Giuliani, F. Li, Augusto Brigatti, Artem Chukanov, Nikolaos Vassilopoulos, Jiaxuan Ye, Yi-Wen Chen, K. Treskov, Michael Karagounis, Haiqiong Zhang, Jiang Zhu, Nunzio Giudice, Zongyi Wang, H. L. Zhuang, Marco Aurelio Diaz, Nikolay Kutovskiy, Shakeel Ahmad, Narongkiat Rodphai, Yifan Yang, Huihui Jia, Juan Pedro Ochoa-Ricoux, Jin Li, Hongtao Liu, Andrey Sidorenkov, Qichun Feng, Jiawen Zhang, T. Enqvist, Ruyi Jin, J. J. Ling, Arseniy Rybnikov, Lino Miramonti, Yi Li, Luis Felipe Piñeres Rico, Ziyuan Li, Ziyi Yuan, A. Lokhov, Jie Cheng, Rafael Herrera, Jiaqi Hui, Wathan Pratumwan, En Wang, Konstantin Schweizer, A. Kruth, Tobias Sterr, Shengxin Lin, Anna Fatkina, Fabrizio Petrucci, Mathieu Bongrand, Olivia Dalager, Alessandro Paoloni, Philipp Kampmann, Roberto Isocrate, Jianmeng Dong, Weirong Zhong, Yiyu Zhang, Saroj Rujirawat, Giuseppe Salamanna, Maxim Vialkov, Abdel Rebii, Mengjiao Xiao, Jing Zhou, P. Chimenti, Jingjing Liang, Yuanyuan Zhang, Pingping Chen, Igor Tkachev, A. Cammi, Oliver Pilarczyk, Vit Vorobel, Zhimin Wang, Honghao Zhang, Zhenxiong Yuan, Xiang Zhou, Damien Dornic, Jie Zhang, Zhangquan Xie, Yaping Cheng, Ying Yuan, Maxim Gonchar, Wei Wei, Zhuojun Hu, Ivano Lippi, Xilei Sun, Shaomin Chen, Jun Cao, Li Zhou, Ruiguang Wang, Nikolay Anfimov, Andrea Triossi, Runxuan Liu, Xinglong Li, Waseem Khan, Pasi Kuusiniemi, Xi Wang, Salvatore Monforte, Meihang Xu, Eric Baussan, Haifeng Yao, Xuantong Zhang, Yang Han, Pascal Poussot, Dongmei Xia, Jacky Schuler, Hao Qiao, Hu Liu, Henning Rebber, Dmitry V. Naumov, Luca Stanco, Paul Hackspacher, Y. K. Hor, Lei Fan, Ziyan Deng, Lei Huo, Ondrej Sramek, K. J. Li, Jianglai Liu, Lu Wang, Paolo Lombardi, Marcos Dracos, B. Roskovec, Taras Rezinko, Quan Tang, Jiawei Deng, Jason Leung, Xiao Tang, Junji Jia, Huiling Li, Nunzio Guardone, Chuanya Cao, Diana Navas-Nicolas, A. Meregaglia, Zhi-zhong Xing, V. Fekete, Jilei Xu, W. Wang, Siguang Wang, Yupeng Yan, Hao Cai, Christopher Wiebusch, Y. B. Hsiung, Z. V. Krumshteyn, Sirichok Jungthawan, Thiago Sogo-Bezerra, Yury Malyshkin, S. Li, Dmitry Fedoseev, Tao Lin, Chuan Lu, J. F. Chang, Davide Chiesa, Changgen Yang, A. Garfagnini, F. Perrot, Wilfried Depnering, Xiaoyan Ma, Yadong Wei, M. Wang, O. Gorchakov, Yajun Mao, Anguo Peng, C. Cerna, Wei He, Lothar Oberauer, Konstantin Stankevich, Yuri Gornushkin, Donghua Fan, Cong Guo, Dušan Štefánik, Ming Qi, Lianghong Wei, Jihane Maalmi, E. Naumova, Jaruchit Siripak, Tadeas Dohnal, Julia Sawatzki, Hongbang Liu, X. R. Chen, Bjoern Wonsak, Vladimir Lyashuk, Johannes van den Boom, Qinhua Huang, Jingyuan Guo, Yuda Zeng, Shulin Liu, Tao Zhang, Guo-Li Wang, Hui Gong, Michaela Schever, Jun Hu, K. J. Zhu, P. W. Luo, Shun Zhou, Bin Ren, Nan Zhou, Yan Liu, Li Kang, Junguang Lu, Gioacchino Ranucci, Chiye Yu, Cheng Xu, Hongzhao Yu, Hanxiong Huang, Xiongbo Yan, Sai-Juan Chen, C. Volpe, Hiroshi Nunokawa, Yanchu Wang, Vladislav Sharov, Xiaoshan Jiang, Abusleme, A, Adam, T, Ahmad, S, Ahmed, R, Aiello, S, Akram, M, An, F, An, G, An, Q, Andronico, G, Anfimov, N, Antonelli, V, Antoshkina, T, Asavapibhop, B, de Andre, J, Auguste, D, Babic, A, Baldini, W, Barresi, A, Baussan, E, Bellato, M, Bergnoli, A, Bernieri, E, Birkenfeld, T, Blin, S, Blum, D, Blyth, S, Bolshakova, A, Bongrand, M, Bordereau, C, Breton, D, Brigatti, A, Brugnera, R, Bruno, R, Budano, A, Buscemi, M, Busto, J, Butorov, I, Cabrera, A, Cai, H, Cai, X, Cai, Y, Cai, Z, Cammi, A, Campeny, A, Cao, C, Cao, G, Cao, J, Caruso, R, Cerna, C, Chang, J, Chang, Y, Chen, P, Chen, S, Chen, X, Chen, Y, Chen, Z, Cheng, J, Cheng, Y, Chiesa, D, Chimenti, P, Chukanov, A, Chuvashova, A, Claverie, G, Clementi, C, Clerbaux, B, Lorenzo, S, Corti, D, Costa, S, Corso, F, Dalager, O, Taille, C, Deng, J, Deng, Z, Depnering, W, Diaz, M, Ding, X, Ding, Y, Dirgantara, B, Dmitrievsky, S, Dohnal, T, Donchenko, G, Dong, J, Dornic, D, Doroshkevich, E, Dracos, M, Druillole, F, Du, S, Dusini, S, Dvorak, M, Enqvist, T, Enzmann, H, Fabbri, A, Fajt, L, Fan, D, Fan, L, Fang, C, Fang, J, Fargetta, M, Fatkina, A, Fedoseev, D, Fekete, V, Feng, L, Feng, Q, Ford, R, Formozov, A, Fournier, A, Gan, H, Gao, F, Garfagnini, A, Gottel, A, Genster, C, Giammarchi, M, Giaz, A, Giudice, N, Giuliani, F, Gonchar, M, Gong, G, Gong, H, Gorchakov, O, Gornushkin, Y, Grassi, M, Grewing, C, Gromov, V, Gu, M, Gu, X, Gu, Y, Guan, M, Guardone, N, Gul, M, Guo, C, Guo, J, Guo, W, Guo, X, Guo, Y, Hackspacher, P, Hagner, C, Han, R, Han, Y, Hassan, M, He, M, He, W, Heinz, T, Hellmuth, P, Heng, Y, Herrera, R, Hong, D, Hor, Y, Hou, S, Hsiung, Y, Hu, B, Hu, H, Hu, J, Hu, S, Hu, T, Hu, Z, Huang, C, Huang, G, Huang, H, Huang, Q, Huang, W, Huang, X, Huang, Y, Hui, J, Huo, L, Huo, W, Huss, C, Hussain, S, Insolia, A, Ioannisian, A, Isocrate, R, Jelmini, B, Jen, K, Ji, X, Jia, H, Jia, J, Jian, S, Jiang, D, Jiang, X, Jin, R, Jing, X, Jollet, C, Joutsenvaara, J, Jungthawan, S, Kalousis, L, Kampmann, P, Kang, L, Karagounis, M, Kazarian, N, Khan, A, Khan, W, Khosonthongkee, K, Kinz, P, Korablev, D, Kouzakov, K, Krasnoperov, A, Krokhaleva, S, Krumshteyn, Z, Kruth, A, Kutovskiy, N, Kuusiniemi, P, Lachenmaier, T, Landini, C, Leblanc, S, Lebrin, V, Lefevre, F, Lei, R, Leitner, R, Leung, J, Li, D, Li, F, Li, H, Li, J, Li, K, Li, M, Li, N, Li, Q, Li, R, Li, S, Li, T, Li, W, Li, X, Li, Y, Li, Z, Liang, H, Liang, J, Liebau, D, Limphirat, A, Limpijumnong, S, Lin, G, Lin, S, Lin, T, Ling, J, Lippi, I, Liu, F, Liu, H, Liu, J, Liu, M, Liu, Q, Liu, R, Liu, S, Liu, X, Liu, Y, Lokhov, A, Lombardi, P, Lombardo, C, Loo, K, Lu, C, Lu, H, Lu, J, Lu, S, Lu, X, Lubsandorzhiev, B, Lubsandorzhiev, S, Ludhova, L, Luo, F, Luo, G, Luo, P, Luo, S, Luo, W, Lyashuk, V, Ma, Q, Ma, S, Ma, X, Maalmi, J, Malyshkin, Y, Mantovani, F, Manzali, F, Mao, X, Mao, Y, Mari, S, Marini, F, Marium, S, Martellini, C, Martin-Chassard, G, Martini, A, Mayilyan, D, Muller, A, Mednieks, I, Meng, Y, Meregaglia, A, Meroni, E, Meyhofer, D, Mezzetto, M, Miller, J, Miramonti, L, Monforte, S, Montini, P, Montuschi, M, Morozov, N, Muhammad, W, Muralidharan, P, Nastasi, M, Naumov, D, Naumova, E, Navas-Nicolas, D, Nemchenok, I, Ning, F, Ning, Z, Nunokawa, H, Oberauer, L, Ochoa-Ricoux, J, Olshevskiy, A, Orestano, D, Ortica, F, Pan, H, Paoloni, A, Parkalian, N, Parmeggiano, S, Payupol, T, Pei, Y, Pelliccia, N, Peng, A, Peng, H, Perrot, F, Petitjean, P, Petrucci, F, Rico, L, Pilarczyk, O, Popov, A, Poussot, P, Pratumwan, W, Previtali, E, Qi, F, Qi, M, Qian, S, Qian, X, Qiao, H, Qin, Z, Qiu, S, Rajput, M, Ranucci, G, Raper, N, Re, A, Rebber, H, Rebii, A, Ren, B, Ren, J, Rezinko, T, Ricci, B, Robens, M, Roche, M, Rodphai, N, Romani, A, Roskovec, B, Roth, C, Ruan, X, Rujirawat, S, Rybnikov, A, Sadovsky, A, Saggese, P, Salamanna, G, Sanfilippo, S, Sangka, A, Sanguansak, N, Sawangwit, U, Sawatzki, J, Sawy, F, Schever, M, Schuler, J, Schwab, C, Schweizer, K, Selivanov, D, Selyunin, A, Serafini, A, Settanta, G, Settimo, M, Shao, Z, Sharov, V, Shi, J, Shutov, V, Sidorenkov, A, Simkovic, F, Sirignano, C, Siripak, J, Sisti, M, Slupecki, M, Smirnov, M, Smirnov, O, Sogo-Bezerra, T, Songwadhana, J, Soonthornthum, B, Sotnikov, A, Sramek, O, Sreethawong, W, Stahl, A, Stanco, L, Stankevich, K, Stefanik, D, Steiger, H, Steinmann, J, Sterr, T, Stock, M, Strati, V, Studenikin, A, Sun, G, Sun, S, Sun, X, Sun, Y, Suwonjandee, N, Szelezniak, M, Tang, J, Tang, Q, Tang, X, Tietzsch, A, Tkachev, I, Tmej, T, Treskov, K, Triossi, A, Troni, G, Trzaska, W, Tuve, C, van Waasen, S, van den Boom, J, Vanroyen, G, Vassilopoulos, N, Vedin, V, Verde, G, Vialkov, M, Viaud, B, Volpe, C, Vorobel, V, Votano, L, Walker, P, Wang, C, Wang, E, Wang, G, Wang, J, Wang, K, Wang, L, Wang, M, Wang, R, Wang, S, Wang, W, Wang, X, Wang, Y, Wang, Z, Watcharangkool, A, Wei, L, Wei, W, Wei, Y, Wen, L, Wiebusch, C, Wong, S, Wonsak, B, Wu, D, Wu, F, Wu, Q, Wu, W, Wu, Z, Wurm, M, Wurtz, J, Wysotzki, C, Xi, Y, Xia, D, Xiao, M, Xie, Y, Xie, Z, Xing, Z, Xu, B, Xu, C, Xu, D, Xu, F, Xu, J, Xu, M, Xu, Y, Yan, B, Yan, X, Yan, Y, Yang, A, Yang, C, Yang, H, Yang, J, Yang, L, Yang, X, Yang, Y, Yao, H, Yasin, Z, Ye, J, Ye, M, Ye, Z, Yegin, U, Yermia, F, Yi, P, Yin, X, You, Z, Yu, B, Yu, C, Yu, H, Yu, M, Yu, X, Yu, Z, Yuan, C, Yuan, Y, Yuan, Z, Yue, B, Zafar, N, Zambanini, A, Zeng, S, Zeng, T, Zeng, Y, Zhan, L, Zhang, F, Zhang, G, Zhang, H, Zhang, J, Zhang, P, Zhang, Q, Zhang, S, Zhang, T, Zhang, X, Zhang, Y, Zhang, Z, Zhao, F, Zhao, J, Zhao, R, Zhao, S, Zhao, T, Zheng, D, Zheng, H, Zheng, M, Zheng, Y, Zhong, W, Zhou, J, Zhou, L, Zhou, N, Zhou, S, Zhou, X, Zhu, J, Zhu, K, Zhuang, H, Zong, L, Zou, J, Institut Pluridisciplinaire Hubert Curien (IPHC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique subatomique et des technologies associées (SUBATECH), Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT), Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), JUNO, Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-IMT Atlantique (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-Nantes université - UFR des Sciences et des Techniques (Nantes univ - UFR ST), Nantes Université - pôle Sciences et technologie, Nantes Université (Nantes Univ)-Nantes Université (Nantes Univ)-Nantes Université - pôle Sciences et technologie, Nantes Université (Nantes Univ)-Nantes Université (Nantes Univ), Université Sciences et Technologies - Bordeaux 1 (UB)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Abusleme A., Adam T., Ahmad S., Ahmed R., Aiello S., Akram M., An F., An G., An Q., Andronico G., Anfimov N., Antonelli V., Antoshkina T., Asavapibhop B., de Andre J.P.A.M., Auguste D., Babic A., Baldini W., Barresi A., Baussan E., Bellato M., Bergnoli A., Bernieri E., Birkenfeld T., Blin S., Blum D., Blyth S., Bolshakova A., Bongrand M., Bordereau C., Breton D., Brigatti A., Brugnera R., Bruno R., Budano A., Buscemi M., Busto J., Butorov I., Cabrera A., Cai H., Cai X., Cai Y., Cai Z., Cammi A., Campeny A., Cao C., Cao G., Cao J., Caruso R., Cerna C., Chang J., Chang Y., Chen P., Chen P.-A., Chen S., Chen X., Chen Y.-W., Chen Y., Chen Z., Cheng J., Cheng Y., Chiesa D., Chimenti P., Chukanov A., Chuvashova A., Claverie G., Clementi C., Clerbaux B., Lorenzo S.C.D., Corti D., Costa S., Corso F.D., Dalager O., Taille C.D.L., Deng J., Deng Z., Depnering W., Diaz M., Ding X., Ding Y., Dirgantara B., Dmitrievsky S., Dohnal T., Donchenko G., Dong J., Dornic D., Doroshkevich E., Dracos M., Druillole F., Du S., Dusini S., Dvorak M., Enqvist T., Enzmann H., Fabbri A., Fajt L., Fan D., Fan L., Fang C., Fang J., Fargetta M., Fatkina A., Fedoseev D., Fekete V., Feng L.-C., Feng Q., Ford R., Formozov A., Fournier A., Gan H., Gao F., Garfagnini A., Gottel A., Genster C., Giammarchi M., Giaz A., Giudice N., Giuliani F., Gonchar M., Gong G., Gong H., Gorchakov O., Gornushkin Y., Grassi M., Grewing C., Gromov V., Gu M., Gu X., Gu Y., Guan M., Guardone N., Gul M., Guo C., Guo J., Guo W., Guo X., Guo Y., Hackspacher P., Hagner C., Han R., Han Y., Hassan M., He M., He W., Heinz T., Hellmuth P., Heng Y., Herrera R., Hong D., Hor Y., Hou S., Hsiung Y., Hu B.-Z., Hu H., Hu J., Hu S., Hu T., Hu Z., Huang C., Huang G., Huang H., Huang Q., Huang W., Huang X., Huang Y., Hui J., Huo L., Huo W., Huss C., Hussain S., Insolia A., Ioannisian A., Isocrate R., Jelmini B., Jen K.-L., Ji X., Jia H., Jia J., Jian S., Jiang D., Jiang X., Jin R., Jing X., Jollet C., Joutsenvaara J., Jungthawan S., Kalousis L., Kampmann P., Kang L., Karagounis M., Kazarian N., Khan A., Khan W., Khosonthongkee K., Kinz P., Korablev D., Kouzakov K., Krasnoperov A., Krokhaleva S., Krumshteyn Z., Kruth A., Kutovskiy N., Kuusiniemi P., Lachenmaier T., Landini C., Leblanc S., Lebrin V., Lefevre F., Lei R., Leitner R., Leung J., Li D., Li F., Li H., Li J., Li K., Li M., Li N., Li Q., Li R., Li S., Li T., Li W., Li X., Li Y., Li Z., Liang H., Liang J., Liebau D., Limphirat A., Limpijumnong S., Lin G.-L., Lin S., Lin T., Ling J., Lippi I., Liu F., Liu H., Liu J., Liu M., Liu Q., Liu R., Liu S., Liu X., Liu Y., Lokhov A., Lombardi P., Lombardo C., Loo K., Lu C., Lu H., Lu J., Lu S., Lu X., Lubsandorzhiev B., Lubsandorzhiev S., Ludhova L., Luo F., Luo G., Luo P., Luo S., Luo W., Lyashuk V., Ma Q., Ma S., Ma X., Maalmi J., Malyshkin Y., Mantovani F., Manzali F., Mao X., Mao Y., Mari S.M., Marini F., Marium S., Martellini C., Martin-Chassard G., Martini A., Mayilyan D., Muller A., Mednieks I., Meng Y., Meregaglia A., Meroni E., Meyhofer D., Mezzetto M., Miller J., Miramonti L., Monforte S., Montini P., Montuschi M., Morozov N., Muhammad W., Muralidharan P., Nastasi M., Naumov D.V., Naumova E., Navas-Nicolas D., Nemchenok I., Ning F., Ning Z., Nunokawa H., Oberauer L., Ochoa-Ricoux J.P., Olshevskiy A., Orestano D., Ortica F., Pan H.-R., Paoloni A., Parkalian N., Parmeggiano S., Payupol T., Pei Y., Pelliccia N., Peng A., Peng H., Perrot F., Petitjean P.-A., Petrucci F., Rico L.F.P., Pilarczyk O., Popov A., Poussot P., Pratumwan W., Previtali E., Qi F., Qi M., Qian S., Qian X., Qiao H., Qin Z., Qiu S., Rajput M., Ranucci G., Raper N., Re A., Rebber H., Rebii A., Ren B., Ren J., Rezinko T., Ricci B., Robens M., Roche M., Rodphai N., Romani A., Roskovec B., Roth C., Ruan X., Rujirawat S., Rybnikov A., Sadovsky A., Saggese P., Salamanna G., Sanfilippo S., Sangka A., Sanguansak N., Sawangwit U., Sawatzki J., Sawy F., Schever M., Schuler J., Schwab C., Schweizer K., Selivanov D., Selyunin A., Serafini A., Settanta G., Settimo M., Shao Z., Sharov V., Shi J., Shutov V., Sidorenkov A., Simkovic F., Sirignano C., Siripak J., Sisti M., Slupecki M., Smirnov M., Smirnov O., Sogo-Bezerra T., Songwadhana J., Soonthornthum B., Sotnikov A., Sramek O., Sreethawong W., Stahl A., Stanco L., Stankevich K., Stefanik D., Steiger H., Steinmann J., Sterr T., Stock M.R., Strati V., Studenikin A., Sun G., Sun S., Sun X., Sun Y., Suwonjandee N., Szelezniak M., Tang J., Tang Q., Tang X., Tietzsch A., Tkachev I., Tmej T., Treskov K., Triossi A., Troni G., Trzaska W., Tuve C., van Waasen S., van den Boom J., Vanroyen G., Vassilopoulos N., Vedin V., Verde G., Vialkov M., Viaud B., Volpe C., Vorobel V., Votano L., Walker P., Wang C., Wang C.-H., Wang E., Wang G., Wang J., Wang K., Wang L., Wang M., Wang R., Wang S., Wang W., Wang X., Wang Y., Wang Z., Watcharangkool A., Wei L., Wei W., Wei Y., Wen L., Wiebusch C., Wong S.C.-F., Wonsak B., Wu D., Wu F., Wu Q., Wu W., Wu Z., Wurm M., Wurtz J., Wysotzki C., Xi Y., Xia D., Xiao M., Xie Y., Xie Z., Xing Z., Xu B., Xu C., Xu D., Xu F., Xu J., Xu M., Xu Y., Yan B., Yan X., Yan Y., Yang A., Yang C., Yang H., Yang J., Yang L., Yang X., Yang Y., Yao H., Yasin Z., Ye J., Ye M., Ye Z., Yegin U., Yermia F., Yi P., Yin X., You Z., Yu B., Yu C., Yu H., Yu M., Yu X., Yu Z., Yuan C., Yuan Y., Yuan Z., Yue B., Zafar N., Zambanini A., Zeng S., Zeng T., Zeng Y., Zhan L., Zhang F., Zhang G., Zhang H., Zhang J., Zhang P., Zhang Q., Zhang S., Zhang T., Zhang X., Zhang Y., Zhang Z., Zhao F., Zhao J., Zhao R., Zhao S., Zhao T., Zheng D., Zheng H., Zheng M., Zheng Y., Zhong W., Zhou J., Zhou L., Zhou N., Zhou S., Zhou X., Zhu J., Zhu K., Zhuang H., Zong L., Zou J., Abusleme, A., Adam, T., Ahmad, S., Ahmed, R., Aiello, S., Akram, M., An, F., An, G., An, Q., Andronico, G., Anfimov, N., Antonelli, V., Antoshkina, T., Asavapibhop, B., de Andre, J. P. A. M., Auguste, D., Babic, A., Baldini, W., Barresi, A., Baussan, E., Bellato, M., Bergnoli, A., Bernieri, E., Birkenfeld, T., Blin, S., Blum, D., Blyth, S., Bolshakova, A., Bongrand, M., Bordereau, C., Breton, D., Brigatti, A., Brugnera, R., Bruno, R., Budano, A., Buscemi, M., Busto, J., Butorov, I., Cabrera, A., Cai, H., Cai, X., Cai, Y., Cai, Z., Cammi, A., Campeny, A., Cao, C., Cao, G., Cao, J., Caruso, R., Cerna, C., Chang, J., Chang, Y., Chen, P., Chen, P. -A., Chen, S., Chen, X., Chen, Y. -W., Chen, Y., Chen, Z., Cheng, J., Cheng, Y., Chiesa, D., Chimenti, P., Chukanov, A., Chuvashova, A., Claverie, G., Clementi, C., Clerbaux, B., Lorenzo, S. C. D., Corti, D., Costa, S., Corso, F. D., Dalager, O., Taille, C. D. L., Deng, J., Deng, Z., Depnering, W., Diaz, M., Ding, X., Ding, Y., Dirgantara, B., Dmitrievsky, S., Dohnal, T., Donchenko, G., Dong, J., Dornic, D., Doroshkevich, E., Dracos, M., Druillole, F., Du, S., Dusini, S., Dvorak, M., Enqvist, T., Enzmann, H., Fabbri, A., Fajt, L., Fan, D., Fan, L., Fang, C., Fang, J., Fargetta, M., Fatkina, A., Fedoseev, D., Fekete, V., Feng, L. -C., Feng, Q., Ford, R., Formozov, A., Fournier, A., Gan, H., Gao, F., Garfagnini, A., Gottel, A., Genster, C., Giammarchi, M., Giaz, A., Giudice, N., Giuliani, F., Gonchar, M., Gong, G., Gong, H., Gorchakov, O., Gornushkin, Y., Grassi, M., Grewing, C., Gromov, V., Gu, M., Gu, X., Gu, Y., Guan, M., Guardone, N., Gul, M., Guo, C., Guo, J., Guo, W., Guo, X., Guo, Y., Hackspacher, P., Hagner, C., Han, R., Han, Y., Hassan, M., He, M., He, W., Heinz, T., Hellmuth, P., Heng, Y., Herrera, R., Hong, D., Hor, Y., Hou, S., Hsiung, Y., Hu, B. -Z., Hu, H., Hu, J., Hu, S., Hu, T., Hu, Z., Huang, C., Huang, G., Huang, H., Huang, Q., Huang, W., Huang, X., Huang, Y., Hui, J., Huo, L., Huo, W., Huss, C., Hussain, S., Insolia, A., Ioannisian, A., Isocrate, R., Jelmini, B., Jen, K. -L., Ji, X., Jia, H., Jia, J., Jian, S., Jiang, D., Jiang, X., Jin, R., Jing, X., Jollet, C., Joutsenvaara, J., Jungthawan, S., Kalousis, L., Kampmann, P., Kang, L., Karagounis, M., Kazarian, N., Khan, A., Khan, W., Khosonthongkee, K., Kinz, P., Korablev, D., Kouzakov, K., Krasnoperov, A., Krokhaleva, S., Krumshteyn, Z., Kruth, A., Kutovskiy, N., Kuusiniemi, P., Lachenmaier, T., Landini, C., Leblanc, S., Lebrin, V., Lefevre, F., Lei, R., Leitner, R., Leung, J., Li, D., Li, F., Li, H., Li, J., Li, K., Li, M., Li, N., Li, Q., Li, R., Li, S., Li, T., Li, W., Li, X., Li, Y., Li, Z., Liang, H., Liang, J., Liebau, D., Limphirat, A., Limpijumnong, S., Lin, G. -L., Lin, S., Lin, T., Ling, J., Lippi, I., Liu, F., Liu, H., Liu, J., Liu, M., Liu, Q., Liu, R., Liu, S., Liu, X., Liu, Y., Lokhov, A., Lombardi, P., Lombardo, C., Loo, K., Lu, C., Lu, H., Lu, J., Lu, S., Lu, X., Lubsandorzhiev, B., Lubsandorzhiev, S., Ludhova, L., Luo, F., Luo, G., Luo, P., Luo, S., Luo, W., Lyashuk, V., Ma, Q., Ma, S., Ma, X., Maalmi, J., Malyshkin, Y., Mantovani, F., Manzali, F., Mao, X., Mao, Y., Mari, S. M., Marini, F., Marium, S., Martellini, C., Martin-Chassard, G., Martini, A., Mayilyan, D., Muller, A., Mednieks, I., Meng, Y., Meregaglia, A., Meroni, E., Meyhofer, D., Mezzetto, M., Miller, J., Miramonti, L., Monforte, S., Montini, P., Montuschi, M., Morozov, N., Muhammad, W., Muralidharan, P., Nastasi, M., Naumov, D. V., Naumova, E., Navas-Nicolas, D., Nemchenok, I., Ning, F., Ning, Z., Nunokawa, H., Oberauer, L., Ochoa-Ricoux, J. P., Olshevskiy, A., Orestano, D., Ortica, F., Pan, H. -R., Paoloni, A., Parkalian, N., Parmeggiano, S., Payupol, T., Pei, Y., Pelliccia, N., Peng, A., Peng, H., Perrot, F., Petitjean, P. -A., Petrucci, F., Rico, L. F. P., Pilarczyk, O., Popov, A., Poussot, P., Pratumwan, W., Previtali, E., Qi, F., Qi, M., Qian, S., Qian, X., Qiao, H., Qin, Z., Qiu, S., Rajput, M., Ranucci, G., Raper, N., Re, A., Rebber, H., Rebii, A., Ren, B., Ren, J., Rezinko, T., Ricci, B., Robens, M., Roche, M., Rodphai, N., Romani, A., Roskovec, B., Roth, C., Ruan, X., Rujirawat, S., Rybnikov, A., Sadovsky, A., Saggese, P., Salamanna, G., Sanfilippo, S., Sangka, A., Sanguansak, N., Sawangwit, U., Sawatzki, J., Sawy, F., Schever, M., Schuler, J., Schwab, C., Schweizer, K., Selivanov, D., Selyunin, A., Serafini, A., Settanta, G., Settimo, M., Shao, Z., Sharov, V., Shi, J., Shutov, V., Sidorenkov, A., Simkovic, F., Sirignano, C., Siripak, J., Sisti, M., Slupecki, M., Smirnov, M., Smirnov, O., Sogo-Bezerra, T., Songwadhana, J., Soonthornthum, B., Sotnikov, A., Sramek, O., Sreethawong, W., Stahl, A., Stanco, L., Stankevich, K., Stefanik, D., Steiger, H., Steinmann, J., Sterr, T., Stock, M. R., Strati, V., Studenikin, A., Sun, G., Sun, S., Sun, X., Sun, Y., Suwonjandee, N., Szelezniak, M., Tang, J., Tang, Q., Tang, X., Tietzsch, A., Tkachev, I., Tmej, T., Treskov, K., Triossi, A., Troni, G., Trzaska, W., Tuve, C., van Waasen, S., van den Boom, J., Vanroyen, G., Vassilopoulos, N., Vedin, V., Verde, G., Vialkov, M., Viaud, B., Volpe, C., Vorobel, V., Votano, L., Walker, P., Wang, C., Wang, C. -H., Wang, E., Wang, G., Wang, J., Wang, K., Wang, L., Wang, M., Wang, R., Wang, S., Wang, W., Wang, X., Wang, Y., Wang, Z., Watcharangkool, A., Wei, L., Wei, W., Wei, Y., Wen, L., Wiebusch, C., Wong, S. C. -F., Wonsak, B., Wu, D., Wu, F., Wu, Q., Wu, W., Wu, Z., Wurm, M., Wurtz, J., Wysotzki, C., Xi, Y., Xia, D., Xiao, M., Xie, Y., Xie, Z., Xing, Z., Xu, B., Xu, C., Xu, D., Xu, F., Xu, J., Xu, M., Xu, Y., Yan, B., Yan, X., Yan, Y., Yang, A., Yang, C., Yang, H., Yang, J., Yang, L., Yang, X., Yang, Y., Yao, H., Yasin, Z., Ye, J., Ye, M., Ye, Z., Yegin, U., Yermia, F., Yi, P., Yin, X., You, Z., Yu, B., Yu, C., Yu, H., Yu, M., Yu, X., Yu, Z., Yuan, C., Yuan, Y., Yuan, Z., Yue, B., Zafar, N., Zambanini, A., Zeng, S., Zeng, T., Zeng, Y., Zhan, L., Zhang, F., Zhang, G., Zhang, H., Zhang, J., Zhang, P., Zhang, Q., Zhang, S., Zhang, T., Zhang, X., Zhang, Y., Zhang, Z., Zhao, F., Zhao, J., Zhao, R., Zhao, S., Zhao, T., Zheng, D., Zheng, H., Zheng, M., Zheng, Y., Zhong, W., Zhou, J., Zhou, L., Zhou, N., Zhou, S., Zhou, X., Zhu, J., Zhu, K., Zhuang, H., Zong, L., and Zou, J.
- Subjects
Nuclear and High Energy Physics ,Physics - Instrumentation and Detectors ,Physics::Instrumentation and Detectors ,measurement methods ,scintillation counter: liquid ,energy resolution ,FOS: Physical sciences ,Photodetector ,Scintillator ,01 natural sciences ,NO ,High Energy Physics - Experiment ,High Energy Physics - Experiment (hep-ex) ,hal-03022811 ,PE2_2 ,Optics ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,Calibration ,lcsh:Nuclear and particle physics. Atomic energy. Radioactivity ,ddc:530 ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,010306 general physics ,Astrophysique ,Jiangmen Underground Neutrino Observatory ,Physics ,JUNO ,liquid [scintillation counter] ,010308 nuclear & particles physics ,business.industry ,Settore FIS/01 - Fisica Sperimentale ,Detector ,Astrophysics::Instrumentation and Methods for Astrophysics ,Linearity ,Instrumentation and Detectors (physics.ins-det) ,calibration ,Neutrino Detectors and Telescopes (experiments) ,lcsh:QC770-798 ,High Energy Physics::Experiment ,Neutrino ,business ,Energy (signal processing) - Abstract
We present the calibration strategy for the 20 kton liquid scintillator central detector of the Jiangmen Underground Neutrino Observatory (JUNO). By utilizing a comprehensive multiple-source and multiple-positional calibration program, in combination with a novel dual calorimetry technique exploiting two independent photosensors and readout systems, we demonstrate that the JUNO central detector can achieve a better than 1% energy linearity and a 3% effective energy resolution, required by the neutrino mass ordering determination. [Figure not available: see fulltext.], 0, info:eu-repo/semantics/published
- Published
- 2021
34. Comparative Cardiovascular Dynamics of Mammals
- Author
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John K-J Li and John K-J Li
- Subjects
- QP105
- Abstract
Comparative Cardiovascular Dynamics of Mammals offers never-before-published data on the structure and function of the circulatory systems of the different mammalian species. This text explores classic allometry, dimensional analysis, and modern hemodynamics to establish similarity principles that provide a necessary and important step in understanding the natural common design and functional features of the cardiovascular systems of different mammals.Fluid and blood vessel mechanics, pulse transmission characteristics, cardiac energetics and mechanics, as well as heart-arterial system interaction are included in this essential reference. The sensitivity of parameters and similarity of principles in the diagnosis of cardiovascular diseases are also addressed. This book also describes the natural processes involved in the functional development of the mammalian cardiovascular system.By using modern methods to present recent findings on the similarities and differences of the mammalian cardiovascular system, the author provides an easily understood approach to this dynamic field of study.
- Published
- 2024
35. Measurement of cross sections for e+e−→μ+μ− at center-of-mass energies from 3.80 to 4.60 GeV
- Author
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Z. A. Liu, V. Prasad, Ma R. T., Y. Ban, P. Weidenkaff, Y. H. Zheng, Cong-Feng Qiao, G. Felici, S. P. Wen, X. S. Qin, X. R. Zhou, N. Yu. Muchnoi, Xu G. F., X. S. Kang, Y. H. Zhang, S. L. Olsen, Ma X. X., Mo X. H., Z. Y. Wang, Teresa Lenz, Meng Wang, L. Wollenberg, L. Y. Dong, A. G. Denig, Muhammad Irshad, Y. K. Sun, F. Feldbauer, Z. L. Huang, Xingchao Dai, M. Ablikim, A. Calcaterra, Z. G. Zhao, X. Y. Jiang, L. Z. Liao, Yu B. X., S. Spataro, Li H. B., Yu Bai, H. H. Zhang, F. A. Harris, W. L. Chang, M. Lellmann, Lingxuan Zhang, Y. X. Tan, H. Leithoff, Li J. Q., X. P. Qin, S. Maldaner, J. Q. Zhang, S. Qian, Q. An, Jialun Ping, Liangbin Li, X. Y. Zhang, X. L. Wang, J. B. Liu, C. L. Luo, Y. J. Sun, F. Li, G. Y. Tang, X. H. Xie, H. M. Liu, Q. Zhou, G. F. Cao, B. Zhong, L. B. Guo, Jie Zhao, A. N. Zhu, Tao Zhang, Ma F. C., Alexey Zhemchugov, F. F. Sui, C.-H. Rosner, E. M. Gersabeck, F. H. Liu, S. Ahmed, Y. X. Yang, T. Z. Han, Li P. R., G. Wilkinson, Y. Fu, Xu Q. J., J. W. Zhang, Xu Shan, H. H. Liu, Wu L. H., R. Kiuchi, Yao Wang, Ke B. C., X. L. Luo, Y. C. Zhu, W. S. Cheng, T. Liu, J. F. Qiu, Y. F. Wang, Wu L. J., M. Kuemmel, Matthew Glenn Kurth, H. Xiao, A. Q. Guo, C. W. Wang, M. Papenbrock, T. Held, Y. Schelhaas, Fu C. D., L. Fava, Zhi Yang, Z. Ning, S. Y. Xiao, Ma Y. M., Y. X. Zhao, M. X. Luo, Dylan Jaide White, H. B. Liu, B. Zheng, R. G. Ping, K. Begzsuren, G. Li, B. Kopf, M. H. Ye, F. Nerling, T. Hussain, R. S. Shi, W. P. Wang, D. V. Dedovich, Li Z. B., H. R. Qi, Q. Q. Song, F. Bianchi, Y. P. Guo, L. L. Wang, H. Cai, X. Q. Hao, Y. H. Xie, W. X. Gong, F. E. Maas, B. Wang, S. Nakhoul, T. Hu, C. Q. Feng, X. R. Chen, M. Maggiora, S. W. Han, S. Jaeger, Q. Zhao, X. F. Cui, Y. Z. Sun, Serkant Ali Cetin, Y. Ding, L. Q. Huang, Z. Y. Deng, Hai-Tian Wang, M. Fritsch, J. M. Zhang, Gu M. H., M. Kavatsyuk, Zujian Wang, Jacek Biernat, P. Larin, A. Pathak, H. C. Shi, Gu L. M., B. J. Liu, Ma X. N., Z. L. Hou, O. Bakina, T. Y. Xing, D. Y. Chen, Jimin Zhao, Z. H. Qin, X D Shi, I. K. Keshk, C. X. Lin, Ye M. H., D. Y. Liu, L. Y. Liu, W. Imoehl, X. K. Zhou, C. F. Redmer, J. B. Jiao, X. H. Liu, L. Q. Qin, B. X. Zhang, Xujin Yuan, C. H. Li, Ma Q. M., W. Kühn, I. B. Nikolaev, M. Rump, Gang Zhao, Z. Y. You, Z. A. Zhu, R. Kliemt, J. H. Yin, P. X. Shen, Lu H. J., M. Shao, Z. Wu, C. X. Yue, Gu Y. T., Y. J. Mao, H. X. Yang, I. Garzia, J. P. Dai, G. S. Huang, A. Mangoni, M. Qi, Ji Q. P., A. Guskov, S. B. Liu, H. J. Yang, Y. Nefedov, Qi T. Y., M. Himmelreich, Wu J. F., Y. F. Long, T. Holtmann, K. Ravindran, J. Y. Liu, W. J. Zhu, X. D. Shi, Dan Wang, S. Gu, C. Z. Yuan, N. Cao, F. Weidner, T. Yu, Xu J. J., Lu X. L., Ji X. L., Du S. X., C. P. Shen, X. Wu, T. J. Min, K. J. Zhu, G. Cibinetto, G. X. Sun, J. V. Bennett, Li Yan, J. G. Messchendorp, W. L. Yuan, Q. Ouyang, Z. Jiao, Wenbin Qian, S. L. Yang, A. Sarantsev, D. H. Wei, J. S. Lange, S. S. Fang, C. Y. Guan, K. Y. Liu, Li H. J., Ma X. Y., Y. G. Gao, W. Ikegami Andersson, P. W. Luo, Ma R. Q., Y. N. Gao, Qi H. R., Y. B. Zhao, Y. Zhang, Y. B. Liu, M. Bertani, L. Yang, W. Shan, J. B. Zhao, P. Kiese, Yuan Hou, J. Dong, Mo Y. J., Zhiqing Zhang, Q. P. Ji, M. Kuessner, I. R. Boyko, Li Z. Y., H. B. Jiang, S. Nisar, Ji X. B., R. A. Briere, C. J. Tang, Y. Hu, Y. P. Lu, Li X. L., X. S. Jiang, S. H. Zhang, X. Y. Shen, W. Gradl, Tao Sun, V. Rodin, G. A. Chelkov, Y. X. Song, Xu X. P., P. Patteri, Lu J. G., R. Farinelli, R. X. Yang, Wei Xu, J. F. Sun, A. Pitka, P. Adlarson, S. Marcello, Y. Zeng, M. Pelizaeus, Zhe Sun, S. Lusso, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, J. J. Song, L. Sun, T. Johansson, J. F. Chang, O. B. Kolcu, X. Cai, L. Lavezzi, H. Y. Zhang, R. B. de Boer, Li L. K., G. F. Chen, J. Y. Zhang, H. W. Wen, Li J. L., Y. K. Heng, T. T. Han, S. J. Zhao, Li P. L., A. Bortone, Xuanhong Lou, Viktor Thorén, Nasser Kalantar-Nayestanaki, Yue Pan, I. Balossino, Hu H. M., Qu S. Q., Yu C. X., Li D. M., M. G. Zhao, Y. H. Yang, R. P. Guo, J. Zhu, M. Savrie, Yi Jin, Y. J. Xiao, Ma M. M., S. Janchiv, C. Zhong, C. Schnier, Y. Q. Wang, Li X. H., X. T. Huang, Ma H. L., G. Rong, Yu J. S., Z. X. Meng, X. A. Xiong, A. A. Zafar, K. H. Rashid, Y. T. Liang, S. J. Chen, K. J. Li, Andrzej Kupsc, M. L. Chen, Magnus Wolke, Y. F. Liang, Fang Liu, Li W. G., U. Wiedner, I. Denysenko, I. Uman, Guangyi Zhang, Z. J. Xiao, W. B. Yan, S. Pacetti, N. Huesken, M. Y. Dong, J. H. Zou, S. S. Sun, R. E. Mitchell, Q. Liu, Tristan Weber, L. Gong, L. G. Xia, A. Amoroso, A. Dbeyssi, Angelo Rivetti, F. De Mori, He K. L., L. D. Liu, Hu J. F., X. F. Wang, C. X. Liu, R. Kappert, S. Jin, Anita, Y. Yuan, K. Goetzen, Li S. Y., M. Albrecht, B. T. Tsednee, Ke Wang, W. Y. Sun, F. H. Heinsius, Lu J. D., B. L. Wang, Ma L. L., H. Liang, L. Koch, A. Khoukaz, R. Baldini Ferroli, Li W. D., Krisztian Peters, S. Malde, M. Z. Wang, Lu Y. P., Haiping Peng, Tao Luo, J. Libby, Shulei Zhang, H. S. Chen, Alperen Yuncu, H. L. Dai, Li C. H., Yaquan Fang, M. Greco, Shou-hua Zhu, John Jake Lane, Guoqiang Yu, K. Schoenning, B. S. Zou, Q. A. Malik, G. Mezzadri, W. C. Yan, Zhiqiang Liu, M. N. Achasov, L. Zhao, L. P. Zhou, Xiao-Rui Lyu, Z. P. Mao, J. Fang, J. Bloms, Z. Y. Zhang, Y. G. Xie, X. L. Gao, C. Dong, S. Sosio, Y. Yang, Joachim Pettersson, J. Tang, Yunlong Zhang, D. Bettoni, J. L. Zhang, Jianping Zheng, M. Destefanis, M. Rolo, and F. Cossio
- Subjects
Nuclear physics ,Physics ,010308 nuclear & particles physics ,law ,0103 physical sciences ,Detector ,Measure (physics) ,Center of mass ,010306 general physics ,Collider ,01 natural sciences ,law.invention - Abstract
The observed cross sections for e(+)e(-) -> mu(+) mu(-) at energies from 3.8 to 4.6 GeVare measured using data samples taken with the BESIII detector operated at the BEPCII collider. We measure ...
- Published
- 2020
36. Regional Ventricular Function in Pulsus Alternans
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John K.-J. Li
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medicine.medical_specialty ,Ventricular function ,business.industry ,Pulsus alternans ,Internal medicine ,medicine ,Cardiology ,medicine.symptom ,business - Published
- 2020
37. Functional Reversibility of an Infarct Determined by Segmental Shortening Measurements
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Walter Welkowitz, null John, K.-J. Li, and John Zelano
- Published
- 2020
38. Study of the D0 → K− μ+ νμ Dynamics and Test of Lepton Flavor Universality with D0→K−l+νl Decays
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Q. Liu, X. L. Gao, M. Bertani, C. Dong, S. Sosio, Z. Haddadi, L. L. Ma, Joachim Pettersson, L. Yang, L. Gong, H. B. Li, M. H. Ye, A. G. Denig, C. L. Luo, A. Amoroso, Q. Zhou, Y. T. Tan, C. C. Zhang, W. Gradl, B. Zhong, M. Ripka, A. Dbeyssi, Y. H. Xie, L. D. Liu, D. Y. Wang, Angelo Rivetti, J. Pellegrino, H. Muramatsu, A. N. Zhu, Ulrich Wiedner, L. Y. Dong, Bingxuan Liu, Y. H. Zheng, Cong-Feng Qiao, S. Jin, A. Julin, M. Alekseev, W. S. Cheng, Yao Zhang, Tao Zhang, G. Li, M. Kornicer, T. Ma, N. Yu. Muchnoi, X. S. Kang, A. Gilman, M. Maggiora, Kai Liu, W. M. Song, W. J. Zheng, Xu Shan, Y. H. Zhang, X. L. Ji, C. D. Fu, C. Q. Feng, X. R. Chen, G. F. Xu, S. B. Liu, L. Zhang, Y. Nefedov, F. Nerling, Lei Zhao, Z. Y. Deng, Z. Y. Wang, Z. L. Hou, Z. G. Wang, H. Y. Zhang, Xingguo Li, F. Li, F. C. Ma, Fang Liu, Y. G. Xie, X. Y. Song, R. Kliemt, Y. Hu, Haiwen Liu, Y. X. Yang, Kang Li, A. Mangoni, L. J. Wu, A. Guskov, J. C. Li, Cui Li, S. X. Du, K. Goetzen, Jie Yu, Y. J. Mo, Z. L. Dou, J. F. Qiu, F. De Mori, J. Zhuang, M. X. Luo, L. Fava, G. S. Huang, K. J. Zhu, Meng Wang, D. V. Dedovich, X. Y. Zhou, Xu Zhou, T. Khan, Xiao-Rui Lyu, C. Z. Yuan, Q. Zhao, G. F. Chen, Y. Z. Sun, Q. P. Ji, Ke Li, G. Cibinetto, I. Uman, Liqing Xu, X. Y. Shen, Y. G. Gao, X. F. Wang, G. S. Varner, J. Y. Zhang, L. Koch, A. Khoukaz, Yang Zhang, F. Feldbauer, C. X. Lin, J. Z. Bai, Z. L. Huang, Y. Ding, Q. M. Ma, A. Mustafa, B. J. Liu, Gang Zhao, Feng Liu, P. Larin, M. Ablikim, X D Shi, A. Calcaterra, Z. G. Zhao, S. Fegan, W. Kühn, Y. J. Mao, L. Z. Liao, T. Holtmann, L. Yan, Y. Yuan, Y. S. Zhu, P. Wang, M. Kuessner, Z. Y. You, J. Y. Liu, H. H. Zhang, Yu Zhang, Z. J. Sun, Xinglong Li, H. X. Yang, I. Garzia, Z. A. Zhu, T. Weber, X. B. Ji, M. Tiemens, C. P. Shen, J. L. Zhang, M. H. Gu, R. Kiuchi, X. N. Ma, H. Y. Sheng, T. Y. Qi, Michael Papenbrock, Q. Gao, Y. N. Gao, F. Yan, B. Wang, P. L. Wang, G. A. Chelkov, P. Patteri, C. X. Yu, Y. X. Xia, S. H. Zhu, J. J. Xu, Z. Q. Yang, M. Kavatsyuk, P. Kiese, B. Garillon, Huihui Liu, Haiping Peng, Muhammad Irshad, J. S. Huang, C. X. Liu, Bibo Ke, Z. J. Xiao, S. L. Olsen, B. Zheng, R. G. Ping, W. B. Yan, J. G. Messchendorp, R. A. Briere, M. N. Achasov, H. J. Lu, Ke Wang, X. K. Chu, J. G. Lu, J. P. Dai, G. Y. Tang, S. Pacetti, B. X. Zhang, F. A. Harris, F. E. Maas, Y. K. Heng, X. S. Jiang, Jie Zhao, D. X. Lin, T. Hu, Qiunan Xu, P. F. Duan, Alexey Zhemchugov, H. M. Hu, H. Leithoff, O. Bakina, A. Q. Guo, Z. Y. Peng, G. Rong, Fenfen An, B. L. Wang, S. J. Zhao, J. W. Zhang, P. X. Shen, T. C. Zhao, X. K. Zhou, Jinxing Zheng, I. Denysenko, O. Cakir, J. F. Hu, Z. Wu, C. F. Redmer, Q. J. Xu, W. C. Yan, Zhiyong Zhang, R. Farinelli, C. Schnier, H. L. Ma, W. P. Wang, J. C. Chen, Xuanhong Lou, Zhiqing Zhang, I. B. Nikolaev, B. X. Yu, J. H. Yin, D. Y. Liu, J. B. Jiao, Z. T. Sun, D. M. Li, Z. H. Qin, M. Shao, Y. T. Gu, Zhi Zeng, Nasser Kalantar-Nayestanaki, B. Y. Zhang, X. T. Huang, C. Morales Morales, Jin Li, Y. Ban, P. Weidenkaff, F. H. Heinsius, M. Y. Dong, V. Prasad, S. Han, M. Pelizaeus, W. G. Li, E. Fioravanti, Y. K. Sun, Xiaoyu Zhou, S. P. Wen, X. R. Zhou, H. S. Chen, H. L. Dai, Igor Boyko, H. B. Liu, J. H. Zou, Cheng Li, S. Spataro, X. P. Xu, L. H. Wu, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, M. G. Zhao, Y. H. Yang, R. P. Guo, J. Zhu, Yi Jin, Lei Li, J. W. Li, L. Xia, S. S. Sun, X. S. Qin, J. Q. Zhang, S. L. Niu, F. Y. Li, X. Q. Li, Y. F. Long, Y. J. Xiao, M. Greco, R. Baldini Ferroli, Niu Xiaoyang, R. E. Mitchell, Z. X. Meng, H. Liang, M. Fritsch, S. Ahmed, Ke Liu, Q. A. Malik, G. Mezzadri, X. Q. He, L. P. Zhou, Y. M. Ma, Z. P. Mao, X. A. Xiong, J. Fang, Z. Gao, Ch. Rosner, A. A. Zafar, Magnus Wolke, Y. F. Liang, G. F. Cao, K. Y. Liu, S. Qian, Q. An, Jialun Ping, D. P. Jin, K. H. Rashid, Z. B. Li, K. Zhang, Y. T. Liang, X. Y. Zhang, S. J. Chen, W. Ikegami Andersson, Y. F. Wang, K. J. Li, J. Libby, Dayong Wang, N. Qin, M. Lara, X. H. Mo, L. S. Wang, Xiaozhong Huang, Yaquan Fang, A. Pitka, J. B. Liu, Y. J. Sun, Yifan Yang, Andrzej Kupsc, T. Hussain, J. F. Sun, X. Y. Ma, Z. Liu, M. L. Chen, K. Schoenning, Q. Y. Li, B. S. Zou, S. Marcello, Y. P. Lu, Niklaus Berger, Y. Zeng, W. X. Gong, S. Lusso, L. L. Wang, H. Cai, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, J. J. Song, L. Sun, M. Kuemmel, Matthew Glenn Kurth, W. Shan, X. H. Sun, Dan Wang, Krisztian Peters, G. R. Liao, X. Liu, H. R. Qi, X. L. Luo, K. Begzsuren, F. Bianchi, Serkant Ali Cetin, Zongyuan Wang, Q. Ouyang, S. S. Fang, Y. B. Liu, Huanhuan Liu, G. Felici, H. J. Li, Q. L. Xiu, X. Tang, A. Yuncu, M. Rolo, F. Cossio, Yunlong Zhang, H. L. Liu, D. Bettoni, R. Poling, S. Zhu, M. Destefanis, M. Qi, H. J. Yang, X. Zhou, I. Tapan, Y. H. Yan, J. W. Zhao, Y. C. Zhu, Y. Zhang, E. Boger, T. Held, M. Albrecht, W. D. Li, B. T. Tsednee, J. Min, Ling Zhao, B. Kopf, K. L. He, M. Z. Wang, Jimin Zhao, P. L. Li, S. F. Zhang, Zhiqing Liu, T. Johansson, J. F. Chang, O. B. Kolcu, X. Cai, L. Lavezzi, X. Q. Hao, M. Richter, Z. Ning, Jun-Yi Zhang, Y. P. Guo, Z. P. Zhang, P. L. Chen, D. W. Bennett, Zujian Wang, Y. Bai, C. Sowa, Y. B. Zhao, J. Dong, Y. Q. Wang, S. Nisar, C. J. Tang, D. Xiao, X. Y. Jiang, M. M. Ma, Y. Pan, J. Chai, G. X. Sun, J. V. Bennett, Z. Jiao, Fu-Hu Liu, and D. H. Zhang
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Physics ,Particle physics ,Flavor ,Lepton ,Universality (dynamical systems) - Published
- 2020
39. A novel compliance-pressure loop approach to quantify arterial compliance in systole and in diastole
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Mehmet Kaya, Vignesh Balasubramanian, Yueya Ge, John K-J. Li, and Amit Patel
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medicine.medical_specialty ,Mean arterial pressure ,Systole ,0206 medical engineering ,Pulsatile flow ,Diastole ,Blood Pressure ,Health Informatics ,02 engineering and technology ,030204 cardiovascular system & hematology ,03 medical and health sciences ,0302 clinical medicine ,Internal medicine ,Humans ,Medicine ,Cardiac cycle ,business.industry ,Models, Cardiovascular ,Arteries ,Stroke volume ,020601 biomedical engineering ,Computer Science Applications ,Pulse pressure ,Blood pressure ,Hypertension ,Cardiology ,Hypotension ,business - Abstract
Arterial compliance has been recognized as a critical parameter in governing pulsatile flow dynamics. It has traditionally been assumed constant throughout the cardiac cycle and its computation has been based either on the classic Windkessel model (C) in diastole or the stroke volume over pulse pressure (Cv) method in systole. Other methods using area (Cam) or two-area (Ctam) and exponential (C(P)exp1) methods were used for the cardiac cycle. We proposed a novel compliance-pressure loop (CPP loop) approach for the quantification of arterial compliance and compared it to existing linear and nonlinear methods. Experimental data were gathered in 5 dogs and blood pressure levels were varied (systolic pressure of 100 mmHg-185 mmHg) with induced hypertension and vasodilation. Results showed the limited regime of validity of C (Control:0.4681 ± 0.1270 ml/mmHg, MTX:0.3015 ± 0.1264 ml/mmHg and NTP:1.8323 ± 0.7207 ml/mmHg) and Cv (Control:0.3583 ± 0.0158 ml/mmHg, MTX:0.2602 ± 0.1275 ml/mmHg and NTP:0.4131 ± 0.0589 ml/mmHg), Cam (Control:0.4175 ± 0.0505, MTX:0.3086 ± 0.1568 and NTP:1.4181 ± 0.4812) and Ctam (Control: 0.2064 ± 0.0228 ml/mmHg, MTX:0.1967 ± 0.0884 ml/mmHg, NTP:0.0881 ± 0.0375 ml/mmHg) and that C(P)exp1 underestimates the arterial compliance compared to our method (Control:0.2233 ± 0.0168 ml/mmHg vs 0.4481 ± 0.0515 ml/mmHg, MTX:0.1976 ± 0.0964 ml/mmHg vs 0.3273 ± 0.1443 ml/mmHg and NTP: 0.2177 ± 0.0273 ml/mmHg vs 1.9990 ± 1.8221 ml/mmHg at mean arterial pressure). The CPP method based on the exponential method is superior, as it provides continuous compliance variations and CPP loop area can be readily visualized from hypotension to hypertension conditions. We conclude that the concept of using compliance-pressure loop is advantageous as it can afford continuous and accurate tracking of the dynamic arterial behavior despite greatly varying blood pressure levels.
- Published
- 2018
40. Aortic Pressure Estimation Using Blind Identification Approach on Single Input Multiple Output Nonlinear Wiener Systems
- Author
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John K-J. Li, Amit Patel, Barry A. Finegan, and Michael Sean McMurtry
- Subjects
Finite impulse response ,Biomedical Engineering ,030204 cardiovascular system & hematology ,Signal ,law.invention ,03 medical and health sciences ,0302 clinical medicine ,law ,Control theory ,Humans ,Arterial Pressure ,Aorta ,Mathematics ,Mathematical analysis ,Models, Cardiovascular ,System identification ,Blood Pressure Determination ,Signal Processing, Computer-Assisted ,Function (mathematics) ,System dynamics ,Nonlinear system ,Pressure measurement ,Nonlinear Dynamics ,Kernel (statistics) ,Algorithms ,030217 neurology & neurosurgery - Abstract
Aortic pressure ( ${P_a}$ ) is important for diagnosis of cardiovascular diseases, but it cannot be directly measured by noninvasive means. We present a method for its estimation by modeling arterial system as multichannel Weiner system with linear finite impulse response filter accounting for larger arteries transmission channel and nonlinear memoryless function block accounting for all nonlinearities due to narrowing of arteries, branching and visco-elastic forces. With this structure when pressure waveforms are measured from two distinct peripheral locations, multichannel blind system identification (MBSI) technique can be used to estimate common input pressure signal or ${P_a}$ . Nonlinear MBSI method was employed on previously acquired human hemodynamic measurements (seven datasets); results show ${P_a}$ can be accurately derived. This method by nature is self-calibrating to account for any interpersonal, along with intrapersonal, vascular dynamics inconstancy. Besides Pa estimation, the proposed MBSI method also allows extraction of system dynamics for vascular channels.
- Published
- 2018
41. Modeling of pulsatile flow-dependent nitric oxide regulation in a realistic microvascular network
- Author
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Gangmin Ning, Wolfgang M. Kuebler, Axel R. Pries, Ruofan Wang, John K-J. Li, and Qing Pan
- Subjects
0301 basic medicine ,medicine.medical_specialty ,Time Factors ,Pulsatile flow ,Hemodynamics ,Vasodilation ,Nitric Oxide ,Mechanotransduction, Cellular ,Biochemistry ,Microcirculation ,03 medical and health sciences ,Internal medicine ,medicine ,Shear stress ,Animals ,Computer Simulation ,Mesentery ,Chemistry ,Models, Cardiovascular ,Numerical Analysis, Computer-Assisted ,Cell Biology ,Rats ,Pulse pressure ,030104 developmental biology ,Endocrinology ,Flow conditions ,Pulsatile Flow ,Microvessels ,Stress, Mechanical ,Cardiology and Cardiovascular Medicine ,Perfusion ,Biomedical engineering - Abstract
Hemodynamic pulsatility has been reported to regulate microcirculatory function. To quantitatively assess the impact of flow pulsatility on the microvasculature, a mathematical model was first developed to simulate the regulation of NO production by pulsatile flow in the microcirculation. Shear stress and pressure pulsatility were selected as regulators of endothelial NO production and NO-dependent vessel dilation as feedback to control microvascular hemodynamics. The model was then applied to a real microvascular network of the rat mesentery consisting of 546 microvessels. As compared to steady flow conditions, pulsatile flow increased the average NO concentration in arterioles from 256.8±93.1nM to 274.8±101.1nM (P
- Published
- 2017
42. Observation of <math><msub><mi>η</mi><mi>c</mi></msub><mo>→</mo><mi>ω</mi><mi>ω</mi></math> in <math><mi>J</mi><mo>/</mo><mi>ψ</mi><mo>→</mo><mi>γ</mi><mi>ω</mi><mi>ω</mi></math>
- Author
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Ablikim, M., Achasov, M. N., Ahmed, S., Albrecht, M., Alekseev, M., Amoroso, A., F. F., An, An, Q., Bai, Y., Bakina, O., Ferroli, R. Baldini, Ban, Y., Begzsuren, K., Bennett, D. W., Bennett, J. V., Berger, N., Bertani, M., Bettoni, D., Bianchi, F., Boger, E., Boyko, I., Briere, R. A., Cai, H., Cai, X., Calcaterra, A., Cao, G. F., Cetin, S. A., Chai, J., Chang, J. F., Chang, W. L., Chelkov, G., Chen, G., Chen, H. S., Chen, J. C., Chen, M. L., Chen, S. J., Chen, X. R., Chen, Y. B., Cheng, W., Chu, X. K., Cibinetto, G., Cossio, F., Dai, H. L., Dai, J. P., Dbeyssi, A., Dedovich, D., Deng, Z. Y., Denig, A., Denysenko, I., Destefanis, M., De Mori, F., Ding, Y., Dong, C., Dong, J., Dong, L. Y., Dong, M. Y., Dou, Z. L., S. X., Du, Fan, J. Z., Fang, J., Fang, S. S., Fang, Y., Farinelli, R., Fava, L., Feldbauer, F., Felici, G., Feng, C. Q., Fritsch, M., C. D., Fu, Gao, Q., Gao, X. L., Gao, Y., Gao, Y. G., Gao, Z., Garillon, B., Garzia, I., Gilman, A., Goetzen, K., Gong, L., Gong, W. X., Gradl, W., Greco, M., L. M., Gu, M. H., Gu, Y. T., Gu, Guo, A. Q., Guo, L. B., Guo, R. P., Guo, Y. P., Guskov, A., Han, S., Hao, X. Q., Harris, F. A., K. L., He, Heinsius, F. H., Held, T., Heng, Y. K., Hou, Z. L., H. M., Hu, J. F., Hu, Hu, T., Hu, Y., Huang, G. S., Huang, J. S., Huang, X. T., Huang, X. Z., Huang, Z. L., Hussain, T., Hüsken, N., Andersson, W. Ikegami, Imoehl, W., Irshad, M., Ji, Q., Q. P., Ji, X. B., Ji, X. L., Ji, Jiang, H. L., Jiang, X. S., Jiang, X. Y., Jiao, J. B., Jiao, Z., Jin, D. P., Jin, S., Jin, Y., Johansson, T., Kalantar-Nayestanaki, N., Kang, X. S., Kavatsyuk, M., B. C., Ke, Keshk, I. K., Khan, T., Khoukaz, A., Kiese, P., Kiuchi, R., Kliemt, R., Koch, L., Kolcu, O. B., Kopf, B., Kuemmel, M., Kuessner, M., Kupsc, A., Kurth, M., Kühn, W., Lange, J. S., Larin, P., Lavezzi, L., Leiber, S., Leithoff, H., Li, C., Cheng, Li, D. M., Li, Li, F., F. Y., Li, Li, G., H. B., Li, H. J., Li, J. C., Li, J. W., Li, K. J., Li, Kang, Li, Ke, Li, L. K., Li, Lei, Li, P. L., Li, P. R., Li, Q. Y., Li, W. D., Li, W. G., Li, X. L., Li, X. N., Li, X. Q., Li, Z. B., Li, Liang, H., Liang, Y. F., Liang, Y. T., Liao, G. R., Liao, L. Z., Libby, J., Lin, C. X., Lin, D. X., Liu, B., Liu, B. J., Liu, C. X., Liu, D., Liu, D. Y., Liu, F. H., Liu, Fang, Liu, Feng, Liu, H. B., Liu, H. L., Liu, H. M., Liu, Huanhuan, Liu, Huihui, Liu, J. B., Liu, J. Y., Liu, K. Y., Liu, Ke, Liu, L. D., Liu, Q., Liu, S. B., Liu, X., Liu, Y. B., Liu, Z. A., Liu, Zhiqing, Long, Y. F., Lou, X. C., H. J., Lu, J. G., Lu, Lu, Y., Y. P., Lu, Luo, C. L., Luo, M. X., Luo, P. W., Luo, T., Luo, X. L., Lusso, S., Lyu, X. R., F. C., Ma, H. L., Ma, L. L., Ma, M. M., Ma, Q. M., Ma, X. N., Ma, X. Y., Ma, Y. M., Ma, Maas, F. E., Maggiora, M., Maldaner, S., Malik, Q. A., Mangoni, A., Mao, Y. J., Mao, Z. P., Marcello, S., Meng, Z. X., Messchendorp, J. G., Mezzadri, G., Min, J., Min, T. J., Mitchell, R. E., X. H., Mo, Y. J., Mo, Morales, C. Morales, Muchnoi, N. Yu., Muramatsu, H., Mustafa, A., Nakhoul, S., Nefedov, Y., Nerling, F., Nikolaev, I. B., Ning, Z., Nisar, S., Niu, S. L., Niu, X. Y., Olsen, S. L., Ouyang, Q., Pacetti, S., Pan, Y., Papenbrock, M., Patteri, P., Pelizaeus, M., Pellegrino, J., Peng, H. P., Peng, Z. Y., Peters, K., Pettersson, J., Ping, J. L., Ping, R. G., Pitka, A., Poling, R., Prasad, V., Qi, M., T. Y., Qi, Qian, S., Qiao, C. F., Qin, N., Qin, X. S., Qin, Z. H., Qiu, J. F., S. Q., Qu, Rashid, K. H., Redmer, C. F., Richter, M., Ripka, M., Rivetti, A., Rolo, M., Rong, G., Rosner, Ch., Rump, M., Sarantsev, A., Savrié, M., Schoenning, K., Shan, W., Shan, X. Y., Shao, M., Shen, C. P., Shen, P. X., Shen, X. Y., Sheng, H. Y., Shi, X., Shi, X. D., Song, J. J., Song, Q. Q., Song, X. Y., Sosio, S., Sowa, C., Spataro, S., Sui, F. F., Sun, G. X., Sun, J. F., Sun, L., Sun, S. S., Sun, X. H., Sun, Y. J., Sun, Y. K., Sun, Y. Z., Sun, Z. J., Sun, Z. T., Tan, Y. T., Tang, C. J., Tang, G. Y., Tang, X., Tsednee, B., Uman, I., Wang, B., Wang, B. L., Wang, C. W., Wang, D., Wang, D. Y., Wang, H. H., Wang, K., Wang, L. L., Wang, L. S., Wang, M., Wang, Meng, Wang, P., Wang, P. L., Wang, W. P., Wang, X. F., Wang, Y., Wang, Y. F., Wang, Z., Wang, Z. G., Wang, Z. Y., Wang, Zongyuan, Weber, T., Wei, D. H., Weidenkaff, P., Wen, S. P., Wiedner, U., Wolke, M., L. H., Wu, L. J., Wu, Wu, Z., Xia, L., Xia, Y., Xiao, Y. J., Xiao, Z. J., Xie, Y. G., Xie, Y. H., Xiong, X. A., Xiu, Q. L., G. F., Xu, J. J., Xu, Xu, L., Q. J., Xu, X. P., Xu, Yan, F., Yan, L., Yan, W. B., Yan, W. C., Yan, Y. H., Yang, H. J., Yang, H. X., Yang, L., Yang, R. X., Yang, S. L., Yang, Y. H., Yang, Y. X., Yang, Yifan, Yang, Z. Q., Ye, M., M. H., Ye, Yin, J. H., You, Z. Y., B. X., Yu, C. X., Yu, J. S., Yu, Yuan, C. Z., Yuan, Y., Yuncu, A., Zafar, A. A., Zeng, Y., Zhang, B. X., Zhang, B. Y., Zhang, C. C., Zhang, D. H., Zhang, H. H., Zhang, H. Y., Zhang, J., Zhang, J. L., Zhang, J. Q., Zhang, J. W., Zhang, J. Y., Zhang, J. Z., Zhang, K., Zhang, L., Zhang, S. F., Zhang, T. J., Zhang, X. Y., Zhang, Y., Zhang, Y. H., Zhang, Y. T., Zhang, Yang, Zhang, Yao, Zhang, Yu, Zhang, Z. H., Zhang, Z. P., Zhang, Z. Y., Zhao, G., Zhao, J. W., Zhao, J. Y., Zhao, J. Z., Zhao, Lei, Zhao, Ling, Zhao, M. G., Zhao, Q., Zhao, S. J., Zhao, T. C., Zhao, Y. B., Zhao, Z. G., Zhemchugov, A., Zheng, B., Zheng, J. P., Zheng, Y. H., Zhong, B., Zhou, L., Zhou, Q., Zhou, X., Zhou, X. K., Zhou, X. R., Zhou, Xiaoyu, Zhou, Xu, Zhu, A. N., Zhu, J., Zhu, K., Zhu, K. J., Zhu, S. H., Zhu, X. L., Zhu, Y. C., Zhu, Y. S., Zhu, Z. A., Zhuang, J., Zou, B. S., and Zou, J. H.
- Abstract
Using a sample of (1310.6±7.0)×106 J/ψ events recorded with the Beijing Spectrometer III detector at the Beijing Electron Positron Collider II, we report the observation of the decay of the (11S0) charmonium state ηc into a pair of ω mesons in the process J/ψ→γωω. The branching fraction is measured for the first time to be B(ηc→ωω)=(2.88±0.10±0.46±0.68)×10−3, where the first uncertainty is statistical, the second systematic, and the third is from the uncertainty of B(J/ψ→γηc). The mass and width of the ηc are determined as M=(2985.9±0.7±2.1) MeV/c2 and Γ=(33.8±1.6±4.1) MeV.
- Published
- 2019
43. Amplitude Analysis of Ds+→π+π0η and First Observation of the W -Annihilation Dominant Decays Ds+→a0(980)+π0 and Ds+→a0(980)0π+
- Author
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Y. K. Sun, Xiaoyu Zhou, Q. P. Ji, S. Spataro, X. P. Xu, T. Khan, Lei Li, J. F. Sun, F. Feldbauer, Z. L. Huang, Feng Liu, Bibo Ke, W. B. Yan, M. N. Achasov, G. F. Cao, X. Tang, M. Ablikim, S. Pacetti, Bingxuan Liu, S. Jin, Xiang Liu, A. Q. Guo, G. Rong, S. Marcello, Ke Li, A. Yuncu, W. S. Cheng, Yao Zhang, G. Li, A. Gilman, J. C. Li, Y. Zeng, S. Lusso, F. Li, M. Rolo, X. N. Ma, B. Wang, M. Qi, J. Y. Liu, M. Kavatsyuk, J. Zhuang, M. X. Luo, F. C. Ma, S. B. Liu, B. X. Zhang, Ke Wang, C. D. Fu, C. Q. Feng, W. P. Wang, X. R. Chen, Z. Y. Deng, D. V. Dedovich, L. Zhang, Y. Nefedov, Xu Zhou, Z. H. Qin, J. Libby, Xingguo Li, Q. Gao, X D Shi, Y. J. Mao, F. Cossio, K. J. Zhu, X. K. Zhou, Fang Liu, Y. N. Gao, Y. B. Chen, R. Kliemt, Xiaofeng Zhu, J. Z. Zhang, I. Denysenko, H. X. Yang, I. Garzia, J. F. Qiu, Z. G. Wang, H. J. Yang, L. Fava, H. Y. Zhang, A. Mangoni, Yaquan Fang, A. Guskov, J. J. Song, Jun-Yi Zhang, Jie Yu, Cui Li, W. C. Yan, L. Sun, M. Richter, Y. F. Wang, Y. P. Guo, S. Ahmed, S. Qian, Q. An, Jialun Ping, A. Calcaterra, Z. G. Zhao, L. Z. Liao, B. Garillon, Huihui Liu, Fenfen An, Y. X. Yang, Kang Li, Haiwen Liu, J. G. Messchendorp, Yang Zhang, Andrzej Kupsc, A. Pitka, X. L. Gao, K. Zhang, B. Y. Zhang, J. P. Dai, H. H. Zhang, T. C. Zhao, G. Cibinetto, Z. P. Zhang, Z. Ning, S. Y. Xiao, Z. J. Sun, X. Y. Zhang, Q. Zhao, Y. Z. Sun, M. Kuemmel, Matthew Glenn Kurth, X. L. Wang, W. Shan, C. Dong, S. Sosio, G. F. Chen, M. L. Chen, S. Maldaner, Xiang Zhou, I. K. Keshk, X. F. Cui, C. X. Lin, Xiao-Rui Lyu, Tao Luo, J. B. Liu, T. Hussain, Gang Zhao, J. Z. Bai, M. Y. Dong, Q. Liu, J. Y. Zhang, X. Y. Ma, P. L. Wang, Y. J. Sun, Yifan Yang, K. Schoenning, Q. Y. Li, B. S. Zou, C. F. Redmer, W. X. Gong, H. B. Li, A. G. Denig, C. L. Luo, Q. Zhou, Joachim Pettersson, Muhammad Irshad, Y. G. Gao, L. K. Li, L. L. Ma, Niklaus Berger, Zujian Wang, V. Rodin, R. Farinelli, L. Gong, Y. Zhang, C. C. Zhang, B. X. Yu, B. Zhong, Y. P. Lu, Yunlong Zhang, W. J. Zhu, Michael Papenbrock, F. Yan, Y. Bai, X. T. Huang, H. L. Ma, D. Bettoni, H. B. Liu, F. A. Harris, Z. T. Sun, X. B. Ji, J. H. Zou, Q. A. Malik, D. M. Li, G. Mezzadri, A. Amoroso, H. Muramatsu, A. N. Zhu, Ulrich Wiedner, X. Q. He, M. Bertani, Tao Zhang, H. Leithoff, R. Poling, Y. H. Yan, Jin Li, K. Goetzen, P. Patteri, Z. J. Xiao, X. L. Ji, R. X. Yang, Jianping Zheng, T. Ma, L. P. Zhou, J. W. Zhao, M. Pelizaeus, L. Yang, A. Dbeyssi, Xu Shan, V. Prasad, Y. M. Ma, S. Han, Z. P. Mao, Krisztian Peters, H. S. Chen, X. H. Sun, H. L. Dai, Igor Boyko, S. S. Sun, X. Y. Jiang, Angelo Rivetti, J. Fang, L. H. Wu, Z. Gao, M. Savrie, Y. G. Xie, Y. C. Zhu, Yi Jin, M. M. Ma, Ch. Rosner, M. Destefanis, J. Q. Zhang, Y. T. Tan, S. L. Niu, W. Gradl, M. Ripka, M. G. Zhao, Y. H. Yang, R. P. Guo, J. Zhu, L. Koch, J. W. Li, A. Khoukaz, X. Liu, G. R. Liao, L. Xia, F. De Mori, Y. J. Xiao, R. Baldini Ferroli, H. Liang, S. X. Du, X. S. Qin, D. Y. Wang, Niu Xiaoyang, J. Min, S. J. Zhao, Meng Wang, Z. X. Meng, X. A. Xiong, Zhiqing Liu, F. Y. Li, X. Q. Li, Y. F. Long, M. Greco, A. A. Zafar, M. Fritsch, B. Kopf, T. Johansson, J. F. Chang, Y. Pan, E. Boger, J. Chai, K. H. Rashid, T. Held, R. E. Mitchell, K. L. He, Jianhao Zhang, Q. J. Xu, Magnus Wolke, J. C. Chen, Xuanhong Lou, G. X. Sun, J. V. Bennett, Y. F. Liang, O. B. Kolcu, X. N. Li, Ke Liu, Y. T. Liang, M. Z. Wang, Haiping Peng, Jimin Zhao, D. P. Jin, Nasser Kalantar-Nayestanaki, S. J. Chen, P. L. Li, C. Morales Morales, Y. Ban, P. Weidenkaff, F. H. Heinsius, X. Cai, Q. M. Ma, L. Lavezzi, A. Mustafa, K. J. Li, X. Q. Hao, Z. Jiao, Fu-Hu Liu, D. H. Zhang, C. Sowa, Y. B. Zhao, Serkant Ali Cetin, Yi Zhang, Y. Yuan, Y. S. Zhu, M. Albrecht, W. D. Li, B. T. Tsednee, J. Dong, J. J. Xu, Z. Q. Yang, Guangshun Huang, L. Yan, Dayong Wang, M. Kuessner, N. Qin, S. P. Wen, S. Nisar, C. J. Tang, Y. Hu, K. Y. Liu, Z. A. Liu, J. S. Huang, C. X. Liu, D. Y. Liu, J. B. Jiao, S. Q. Qu, Z. B. Li, W. Ikegami Andersson, R. Kappert, X. R. Zhou, P. Kiese, Yuan Hou, S. L. Olsen, Cheng Li, R. A. Briere, G. F. Xu, X. S. Jiang, H. J. Lu, J. G. Lu, G. A. Chelkov, F. E. Maas, X. Y. Song, T. Hu, Y. H. Xie, J. Pellegrino, O. Bakina, M. Maggiora, J. L. Zhang, Ling Zhao, M. H. Gu, R. Kiuchi, H. Y. Sheng, Lei Zhao, Z. L. Hou, C. X. Yu, P. X. Shen, B. Zheng, R. G. Ping, Z. Wu, X. K. Chu, M. H. Ye, Y. K. Heng, Zhiqing Zhang, L. D. Liu, L. Y. Dong, J. F. Hu, C. Z. Yuan, N. Cao, F. Nerling, Zhiyong Zhang, I. B. Nikolaev, J. H. Yin, M. Shao, Y. T. Gu, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, X. H. Mo, L. S. Wang, Y. Ding, L. L. Wang, H. Cai, B. J. Liu, W. Kühn, Z. Y. You, Z. A. Zhu, T. Weber, C. P. Shen, L. J. Wu, Y. J. Mo, Liqing Xu, X. Y. Shen, W. Imoehl, X. L. Luo, K. Begzsuren, F. Bianchi, G. Y. Tang, Huanhuan Liu, Y. H. Zheng, Cong-Feng Qiao, Jie Zhao, D. X. Lin, G. Felici, N. Yu. Muchnoi, H. J. Li, Q. L. Xiu, X. S. Kang, Alexey Zhemchugov, H. M. Hu, Zongyuan Wang, Y. H. Zhang, Q. Ouyang, S. S. Fang, Y. B. Liu, Z. Y. Wang, M. Alekseev, I. Uman, P. Larin, T. Y. Qi, Y. X. Xia, S. H. Zhu, and W. G. Li
- Subjects
Physics ,Crystallography ,Annihilation ,Amplitude ,Branching fraction ,Electron–positron annihilation ,0103 physical sciences ,General Physics and Astronomy ,010306 general physics ,01 natural sciences ,Energy (signal processing) ,Order of magnitude ,Luminosity - Abstract
We present the first amplitude analysis of the decay D_{s}^{+}→π^{+}π^{0}η. We use an e^{+}e^{-} collision data sample corresponding to an integrated luminosity of 3.19 fb^{-1} collected with the BESIII detector at a center-of-mass energy of 4.178 GeV. We observe for the first time the W-annihilation dominant decays D_{s}^{+}→a_{0}(980)^{+}π^{0} and D_{s}^{+}→a_{0}(980)^{0}π^{+}. We measure the absolute branching fraction B(D_{s}^{+}→a_{0}(980)^{+(0)}π^{0^{(}+)},a_{0}(980)^{+(0)}→π^{+(0)}η)=(1.46±0.15_{stat}±0.23_{sys})%, which is larger than the branching fractions of other measured pure W-annihilation decays by at least one order of magnitude. In addition, we measure the branching fraction of D_{s}^{+}→π^{+}π^{0}η with significantly improved precision.
- Published
- 2019
44. Observation and study of the decay J/ψ→ϕηη′
- Author
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X. L. Ji, Jun-Yi Zhang, Huanhuan Liu, Y. F. Wang, Z. Y. Zhang, G. Felici, D. Y. Liu, J. B. Jiao, T. Hussain, X. Y. Ma, Y. G. Xie, W. X. Gong, D. W. Bennett, Zujian Wang, Bibo Ke, W. B. Yan, F. De Mori, Z. L. Dou, X. Y. Zhou, T. Y. Qi, H. J. Li, G. R. Liao, C. H. Li, X. H. Sun, Y. Ding, M. Kuessner, Q. L. Xiu, J. Y. Liu, Q. Gao, Y. N. Gao, B. J. Liu, Y. Zhang, S. Pacetti, Feng Yan, R. Farinelli, Ke Li, X. K. Chu, Y. X. Xia, X. K. Zhou, M. H. Ye, X. F. Wang, Q. M. Ma, A. Mustafa, H. L. Ma, D. M. Li, H. Muramatsu, J. F. Sun, S. Marcello, Y. Zeng, Zhe Sun, S. Lusso, W. Kühn, Z. Y. You, Z. A. Zhu, M. Y. Dong, M. Pelizaeus, S. Ahmed, Y. X. Yang, Kang Li, H. J. Lu, J. G. Lu, Q. Zhao, Y. Z. Sun, I. K. Keshk, C. X. Lin, Alexander Leon Gilman, Gang Zhao, H. R. Qi, G. A. Chelkov, Xiao-Rui Lyu, M. Richter, Z. Ning, X. Y. Niu, Y. Yuan, Y. S. Zhu, Z. Gao, S. L. Niu, X. Q. Li, Y. F. Long, Zongyuan Wang, L. Y. Dong, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, J. H. Zou, S. S. Sun, Y. P. Guo, F. E. Maas, T. Hu, F. Li, X. Tang, J. J. Song, L. Sun, Serkant Ali Cetin, Yu Zhang, M. M. Ma, S. B. Liu, F. C. Ma, C. P. Shen, L. J. Wu, X. L. Li, O. Bakina, Y. H. Xie, Y. G. Gao, J. Pellegrino, X. Q. Hao, R. E. Mitchell, Yi Zhang, Y. Nefedov, M. Rolo, K. Y. Liu, W. S. Cheng, Yao Zhang, G. Li, M. Bertani, S. Qian, Q. An, Jialun Ping, Q. Liu, Tristan Weber, M. G. Zhao, Y. H. Yang, M. Kuemmel, Matthew Glenn Kurth, Y. J. Mo, S. Q. Qu, Q. Ouyang, Lingxuan Zhang, Z. B. Li, Fang Liu, K. Zhang, X. Y. Zhang, P. X. Shen, M. Maggiora, Ling Zhao, Z. Wu, S. S. Fang, W. Ikegami Andersson, Zhiqing Liu, Z. Haddadi, P. Larin, U. Wiedner, I. Denysenko, L. L. Ma, R. P. Guo, J. Zhu, L. Gong, J. F. Qiu, J. B. Liu, L. Yang, M. Papenbrock, P. Kiese, L. Fava, I. Tapan, Y. B. Liu, Lei Zhao, Z. L. Hou, T. Johansson, J. F. Chang, Zhiqing Zhang, X. H. Mo, B. Y. Zhang, P. L. Wang, F. Nerling, R. A. Briere, L. G. Xia, A. Amoroso, Y. H. Yan, C. D. Fu, C. Q. Feng, X. R. Chen, L. S. Wang, G. S. Huang, Z. A. Liu, Y. J. Sun, Yifan Yang, E. Boger, V. Prasad, X. L. Luo, Q. P. Ji, F. Cossio, I. R. Boyko, K. J. Zhu, Y. P. Lu, Yang Zhang, J. Chai, J. W. Zhao, O. B. Kolcu, X. S. Jiang, L. L. Wang, X. Cai, L. Lavezzi, K. Begzsuren, Dan Wang, A. Dbeyssi, G. Y. Tang, H. Cai, Y. C. Zhu, W. P. Wang, Liqing Xu, X. Y. Shen, S. J. Zhao, F. Bianchi, Y. Ban, P. Weidenkaff, I. B. Nikolaev, C. Z. Yuan, Y. H. Zheng, R. X. Yang, Cong-Feng Qiao, S. P. Wen, Z. Y. Deng, M. Ripka, J. H. Yin, A. Pitka, M. Kornicer, Angelo Rivetti, Jie Zhao, D. X. Lin, X. S. Qin, Alexey Zhemchugov, H. M. Hu, M. Shao, Y. T. Gu, F. H. Liu, G. X. Sun, J. V. Bennett, Li Yan, A. Julin, O. Cakir, Meng Wang, Muhammad Irshad, Yunlong Zhang, Z. Jiao, D. H. Zhang, H. L. Liu, T. Held, D. Bettoni, Nicolas Berger, N. Yu. Muchnoi, X. S. Kang, J. W. Zhang, E. Fioravanti, Y. H. Zhang, X. R. Zhou, Cheng Li, J. L. Zhang, F. A. Harris, Q. J. Xu, J. Q. Zhang, Y. T. Tan, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, C. Sowa, Y. B. Zhao, Jianping Zheng, J. Z. Bai, S. L. Olsen, S. Zhu, W. Shan, Z. P. Zhang, H. Leithoff, J. Dong, W. Gradl, J. C. Chen, T. Khan, M. H. Gu, R. Kiuchi, Xuanhong Lou, Z. Y. Wang, M. Albrecht, W. D. Li, Nasser Kalantar-Nayestanaki, D. Y. Wang, B. T. Tsednee, M. Qi, S. X. Du, C. Morales Morales, S. Nisar, X. H. Liu, C. J. Tang, Y. Hu, H. Y. Sheng, C. X. Yu, J. P. Dai, H. J. Yang, Yue Pan, M. Destefanis, X. L. Gao, B. Zheng, R. G. Ping, F. Feldbauer, D. Xiao, Z. L. Huang, Z. G. Wang, X. P. Xu, X. B. Ji, M. Tiemens, H. Y. Zhang, Feng Liu, M. Ablikim, X. Y. Jiang, H. Liang, C. Dong, S. Sosio, G. F. Chen, P. Patteri, J. Y. Zhang, X. N. Ma, Joachim Pettersson, A. Q. Guo, Z. Y. Peng, J. Min, R. Kliemt, A. Mangoni, A. Guskov, Jie Yu, H. B. Liu, Y. K. Heng, W. M. Song, B. Kopf, B. Wang, K. L. He, S. W. Han, M. Fritsch, M. Kavatsyuk, Jimin Zhao, Z. H. Qin, P. L. Li, X D Shi, C. F. Redmer, G. Cibinetto, Y. J. Mao, H. X. Yang, I. Garzia, B. X. Zhang, B. Garillon, Huihui Liu, Magnus Wolke, Y. F. Liang, J. G. Messchendorp, L. Koch, A. Khoukaz, Qiunan Xu, D. P. Jin, W. G. Li, A. G. Denig, Y. K. Sun, Xiaoyu Zhou, S. Spataro, H. M. Liu, Dayong Wang, N. Qin, J. F. Hu, G. F. Cao, I. Uman, R. Baldini Ferroli, Z. J. Xiao, Ke Liu, P. L. Chen, Xiaozhong Huang, X. L. Wang, Andrzej Kupsc, Krisztian Peters, M. L. Chen, J. Libby, Yaquan Fang, M. Greco, M. Z. Wang, Shou-hua Zhu, X. N. Li, Haiping Peng, K. Schoenning, Q. Y. Li, B. S. Zou, Ke Wang, Q. A. Malik, G. Mezzadri, W. C. Yan, X. Q. He, M. N. Achasov, L. P. Zhou, R. Poling, P. F. Duan, F. H. Heinsius, Y. M. Ma, Z. P. Mao, Fenfen An, J. Fang, Ch. Rosner, B. L. Wang, T. C. Zhao, Tao Luo, B. X. Yu, F. Y. Li, H. S. Chen, Alperen Yuncu, Jin Li, H. L. Dai, G. F. Xu, S. Jin, X. Y. Song, K. Goetzen, L. D. Liu, J. J. Xu, Z. Q. Yang, H. B. Li, C. L. Luo, J. S. Huang, C. X. Liu, Q. Zhou, C. C. Zhang, B. Zhong, Lei Li, M.G. Alekseev, A. N. Zhu, Tao Zhang, T. Ma, Xu Shan, J. C. Li, J. Zhuang, M. X. Luo, D. V. Dedovich, Xu Zhou, A. Calcaterra, Z. G. Zhao, S. Fegan, L. Z. Liao, Yu Bai, H. H. Zhang, Z. J. Sun, S. Maldaner, L. H. Wu, M. Savrie, Yi Jin, J. W. Li, Y. J. Xiao, Z. X. Meng, X. A. Xiong, A. A. Zafar, K. H. Rashid, Y. T. Liang, S. J. Chen, K. J. Li, X. T. Huang, and G. Rong
- Subjects
Nuclear physics ,Physics ,Angular distribution ,010308 nuclear & particles physics ,Branching fraction ,Electron–positron annihilation ,0103 physical sciences ,Detector ,High Energy Physics::Experiment ,Nuclear Experiment ,010306 general physics ,Parity (mathematics) ,01 natural sciences - Abstract
We report the observation and study of the decay J/psi -> phi eta eta' phi eta eta' using 1.3 x 10(9) J/psi events collected with the BESIII detector. Its branching fraction, including all possi ...
- Published
- 2019
45. Study of e+e−→γωJ/ψ and Observation of X(3872)→ωJ/ψ
- Author
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J. Libby, Yaquan Fang, A. Guskov, X. D. Shi, Lu F. X., W. B. Yan, John Jake Lane, Tao Luo, Xiao-Rui Lyu, C. H. Heinz, Guoqiang Yu, Su K. X., Li S. Y., K. Schoenning, Ma R. T., B. S. Zou, Gu L. M., Y. G. Gao, W. H. Wang, S. Pacetti, Niklaus Berger, Y. Ban, P. Weidenkaff, F. H. Heinsius, G. Wilkinson, A. Q. Guo, Wen-Zhao Liu, G. Li, J. L. Liu, S. P. Wen, Y. H. Tan, D. Y. Liu, H. S. Chen, X. Wu, A. Gilman, J. B. Jiao, C. Q. Feng, X. R. Chen, X. R. Zhou, F. E. Maas, T. Hu, X. Wang, F. De Mori, Igor Boyko, J. Bloms, Z. Y. Deng, Hai-Tian Wang, Li C. H., N. Hüsken, S. Nisar, A. Calcaterra, Z. G. Zhao, Wu L. J., Xu Q. J., M. Albrecht, He K. L., O. Bakina, Hao Liang, I. Denysenko, I. B. Nikolaev, L. Z. Liao, Xingguo Li, Guangshun Huang, S. Y. Xiao, R. Kliemt, M. Kuessner, L. Yan, Li J. Q., W. J. Zhu, L. Koch, A. Khoukaz, Y. Y. Wang, Xu Y. C., M. Fritsch, Fu C. D., J. Tang, X D Shi, K. Begzsuren, R. Baldini Ferroli, Ji X. B., Tao Sun, X. Dong, S. Nakhoul, J. Z. Zhao, Q. P. Ji, Li J. S., Mo X. H., C. Li, S. Malde, Guangyi Zhang, P. X. Shen, Xiao Cai, Xiangcheng Pan, Y. J. Mao, M. Q. Jing, Hu H. M., M. Z. Wang, H. Y. Zhang, Jianhao Zhang, Y. K. Heng, H. K. Sun, Yunlong Zhang, M. H. Liu, F. Bianchi, H. H. Zhang, Xu X. P., Ye M. H., K. Peters, K. J. Zhu, Ji Q. P., H. X. Yang, Q. An, Jialun Ping, X. Y. Shen, L. Y. Dong, J. X. Teng, Lu Y. P., D. Bettoni, Liangbin Li, Peilian Liu, X. Y. Zhang, Su P. P., Xujin Yuan, X. L. Wang, Y. H. Zheng, Y. X. Zhao, Y. H. Xie, S. B. Liu, Zhiqing Zhang, Y. X. Tan, T. Liu, J. F. Qiu, Cong-Feng Qiao, G. Cibinetto, Ma R. Q., G. A. Chelkov, Haiping Peng, Yu C. X., J. B. Liu, R. Poling, B. Kopf, W. Y. Han, Li D. M., Zhiyong Zhang, Q. A. Malik, M. Y. Dong, R. Farinelli, A. Mangoni, Du S. X., Ma F. C., L. Yang, A. Lavania, H. B. Liu, Y. Yuan, M. Lellmann, Y. J. Sun, M. Maggiora, W. X. Gong, Y. Nefedov, M. Rolo, Lei Zhao, Z. L. Hou, Zhi Yang, Y. Ding, Xu G. F., P. W. Luo, X. S. Kang, Y. C. Zhu, J. L. Zhang, F. F. Sui, Q. Liu, Gu Y. T., Stephen Lars Olsen, J. G. Messchendorp, A. Rivetti, M. N. Achasov, J. H. Zou, T. Lenz, Mo Y. J., Gu M. H., Z. Wu, R. E. de Boer, Z. P. Mao, H. J. Wang, T. J. Min, K. Y. Liu, I. Garzia, X. S. Qin, Jian Fang, R. Kiuchi, B. J. Liu, A. Yuncu, T. Y. Xing, D. Y. Chen, Z. H. Lei, Li Yuan, Li P. R., Li H. J., T. Held, Z. J. Chen, M. G. Zhao, J. Zhu, Libo Zhang, H. Muramatsu, X. F. Wang, Z. Y. Yuan, Ji Y. Y., Li Zhou, S. S. Sun, W. M. Song, Ma H. L., F. Weidner, W. Y. Sun, J. J. Zhang, F. Cossio, C. Z. Yuan, N. Cao, Y. Schelhaas, M. Destefanis, V. Rodin, Q. Ouyang, W. Kühn, S. Maldaner, Z. Y. You, Z. A. Zhu, W. C. Yan, A. G. Denig, Lu J. D., C. L. Luo, Q. Zhou, Ma L. L., W. H. Tian, A. Amoroso, S. S. Fang, C. Y. Guan, B. Zheng, R. G. Ping, M. Pelizaeus, S. Qian, T. Holtmann, C. W. Wang, G. Rong, Z. Y. Wang, Yi Chen, Li H. B., A. Dbeyssi, Ke B. C., J. F. Chang, X. P. Qin, Qi K. H., X. Liu, Haiwen Liu, Lu J. G., G. Y. Hou, Zeng, Y. B. Liu, C. P. Shen, C. Dong, Jiajun Zheng, L. Lavezzi, J. Y. Liu, Li L. K., R. E. Mitchell, G. F. Chen, W. Imoehl, S. Sosio, W. S. Cheng, B. Zhong, L. B. Guo, Z. H. Qin, Ma X. X., F. Li, L. L. Wang, H. Cai, J. Y. Zhang, M. L. Chen, G. Felici, Qi T. Y., A. N. Zhu, Ulrich Wiedner, Joachim Pettersson, Serkant Ali Cetin, H. F. Shen, J. F. Shangguan, Muhammad Irshad, Y. D. Wang, N. Y. Muchnoi, L. Q. Huang, Li J. L., K. Wang, Feng Yan, Qu S. Q., Jacek Biernat, Yanping Huang, Hu J. F., Y. L. Fan, J. H. Yin, Xu Shan, Lei Zhang, Lu H. J., Li W. D., Yu B. X., M. Qi, S. Ahmed, Y. X. Yang, Ma X. Y., F. Feldbauer, M. Shao, C. X. Yue, M. X. Luo, Dylan Jaide White, W. L. Chang, W. P. Wang, H. Leithoff, An M. R., H. J. Yang, T. T. Han, L. Wollenberg, D. V. Dedovich, M. Scodeggio, Ma M. M., S. J. Zhao, M. Ablikim, Xingchao Dai, Qi H. R., Q. Zhao, Y. Z. Sun, Y. P. Guo, Z. Qian, G. Mezzadri, X. D. Zhang, Xiang Zhou, I. K. Keshk, A. Bortone, Xuanhong Lou, Viktor Thorén, H. Qi, C. X. Lin, Nasser Kalantar-Nayestanaki, B. Wang, M. Rump, Gang Zhao, Yue Pan, A. Sarantsev, J. Zhang, M. Kavatsyuk, I. Balossino, D. H. Wei, J. S. Lange, H. C. Shi, B. X. Zhang, Y. K. Sun, Z. Huang, S. Spataro, Ge P. T., Wu L. H., Y. Zhang, G. F. Cao, D. C. Shan, M. Bertani, Z. Ning, H. B. Jiang, W. Gradl, Y. X. Song, D. Y. Wang, S. L. Yang, X. Sun, G. R. Liao, J. F. Sun, F. Liu, S. Marcello, Y. Zeng, Zhe Sun, S. Lusso, X. H. Xie, J. Z. Zhang, H. S. Sang, J. J. Song, L. Sun, M. Kuemmel, Matthew Glenn Kurth, P. Kiese, W. Shan, Yuan Hou, R. A. Briere, X. S. Jiang, Wei Xu, P. Adlarson, X. F. Cui, Y. F. Wang, J. Zhao, T. Hussain, Evelina Gersabeck, A. Pathak, K. Ravindran, M. Greco, Jie Feng, Tong Zhu, R. P. Guo, W. Ikegami Andersson, Shan Jin, K. Goetzen, A. Q. Zhang, S. Zhang, R. Kappert, S. Gu, X. L. Luo, L. D. Liu, C. X. Liu, G. Y. Tang, Li X. L., Jie Zhao, Z. X. Meng, Yongke Zhao, X. H. Bai, A. A. Zafar, Christoph Herold, K. H. Rashid, Hui Li, Y. T. Liang, R. Aliberti, S. J. Chen, K. J. Li, L. Fava, V. Prasad, F. Nerling, J. Dong, C. J. Tang, Y. Hu, Y. P. Lu, P. Patteri, Z. A. Liu, L. Q. Qin, Yi Jin, L. Xia, Xu Yan, Li Z. Y., H. L. Dai, S. F. Zhang, F. A. Harris, S. Janchiv, M. Himmelreich, Zhiqing Liu, T. Johansson, C. Zhong, O. B. Kolcu, Yu-Xiao Liu, Z. H. Wang, Wu J. F., X. Q. Hao, C. F. Redmer, S. H. Zhu, C. Schnier, Y. Q. Wang, T. Yu, Li X. H., A. Zhemchugov, X. T. Huang, X. K. Zhou, Lu X. L., Yu J. S., G. X. Sun, H. Xiao, Ji X. L., Z. Jiao, Fu-Hu Liu, Yang Yang, C.-H. Rosner, Wenbin Qian, C. Geng, I. Uman, R. S. Shi, Y. Bai, S. Jaeger, P. Larin, Ma Q. M., L. Gong, Z. J. Xiao, Yuguang Xie, Andrzej Kupsc, M. Ye, Magnus Wolke, Y. F. Liang, and Li W. G.
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Particle physics ,Electron–positron annihilation ,General Physics and Astronomy ,01 natural sciences ,Spectral line ,law.invention ,Luminosity ,Nuclear physics ,Cross section (physics) ,law ,0103 physical sciences ,Invariant mass ,Collider ,010306 general physics ,Physics ,Annihilation ,Mass distribution ,010308 nuclear & particles physics ,High Energy Physics::Phenomenology ,Order (ring theory) ,Resonance ,Baryon ,Phase space ,High Energy Physics::Experiment ,Center of mass ,Atomic physics ,Energy (signal processing) ,Storage ring ,Bar (unit) ,X(3872) - Abstract
We study the e^{+}e^{-}→γωJ/ψ process using 11.6 fb^{-1} e^{+}e^{-} annihilation data taken at center-of-mass energies from sqrt[s]=4.008 GeV to 4.600 GeV with the BESIII detector at the BEPCII storage ring. The X(3872) resonance is observed for the first time in the ωJ/ψ system with a significance of more than 5σ. The relative decay ratio of X(3872)→ωJ/ψ and π^{+}π^{-}J/ψ is measured to be R=1.6_{-0.3}^{+0.4}±0.2, where the first uncertainty is statistical and the second systematic (the same hereafter). The sqrt[s]-dependent cross section of e^{+}e^{-}→γX(3872) is also measured and investigated, and it can be described by a single Breit-Wigner resonance, referred to as the Y(4200), with a mass of 4200.6_{-13.3}^{+7.9}±3.0 MeV/c^{2} and a width of 115_{-26}^{+38}±12 MeV. In addition, to describe the ωJ/ψ mass distribution above 3.9 GeV/c^{2}, we need at least one additional Breit-Wigner resonance, labeled as X(3915), in the fit. The mass and width of the X(3915) are determined. The resonant parameters of the X(3915) agree with those of the Y(3940) in B→KωJ/ψ and of the X(3915) in γγ→ωJ/ψ observed by the Belle and BABAR experiments within errors.
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- 2019
46. Augmentation index in the assessment of wave reflections and systolic loading
- Author
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Vignesh Balasubramanian, Mehmet Kaya, and John K-J. Li
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0301 basic medicine ,Nitroprusside ,medicine.medical_specialty ,Databases, Factual ,Surrogate measure ,Systole ,Health Informatics ,Vasodilation ,Blood Pressure ,Hemorrhage ,Pulse Wave Analysis ,Methoxamine ,03 medical and health sciences ,0302 clinical medicine ,Dogs ,Internal medicine ,Linear regression ,Heart rate ,Medicine ,Animals ,Humans ,Reflection coefficient ,Hemodilution ,business.industry ,Models, Cardiovascular ,Computer Science Applications ,030104 developmental biology ,Hypertension ,Aortic pressure ,Cardiology ,business ,030217 neurology & neurosurgery ,medicine.drug - Abstract
Background Augmentation index (AIx) is used to quantify the augmented systolic aortic pressure that impedes ventricular ejection. Its use as an index of wave reflections is questionable. We hypothesize that AIx is quantitatively different from the reflection coefficient under varied physiological conditions. Methods 42 datasets of aortic pressure and flow waveforms were obtained during induced hypertension (methoxamine infusion) and vasodilation (nitroprusside infusion) in our mongrel dog experiments (n = 5) and from Mendeley data during various interventions (vasoconstrictors, vasodilators, pacing, stimulation, hemorrhage and hemodilution). Wave reflections and principal components of reflection coefficients were computed for comparison to AIx and heart rate normalized AIx. Results Principal reflection coefficient, Γ1, increased in hypertension and decreased in vasodilation, hemorrhage and hemodilution. AIx followed the trend in many cases but was consistently lower than Γ1 in almost all the subjects. The Bland-Altman analysis also showed that both AIx and normalized AIx underestimated Γ1. The relationship between augmentation index and reflection coefficient was explained by a linear regression model (r2 = 0.23, p Conclusion AIx is a reasonable clinical trend indicator, albeit not an accurate surrogate measure of the amount of wave reflections.
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- 2019
47. Interpretation of a new biomarker for the right ventricle introduced to evaluate the severity of pulmonary arterial hypertension
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Neal Handly, John K-J. Li, Peter L. M. Kerkhof, Physics and medical technology, Radiology and nuclear medicine, and ACS - Heart failure & arrhythmias
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Pulmonary and Respiratory Medicine ,lcsh:RC705-779 ,medicine.medical_specialty ,lcsh:Diseases of the circulatory (Cardiovascular) system ,business.industry ,risk stratification ,lcsh:Diseases of the respiratory system ,right ventricle ,medicine.anatomical_structure ,Ventricle ,lcsh:RC666-701 ,Internal medicine ,pulmonary arterial hypertension ,Risk stratification ,Cardiology ,medicine ,Biomarker (medicine) ,biomarker ,pediatric cardiology ,business ,Letter to the Editor ,Pediatric cardiology - Published
- 2019
48. Search for baryon and lepton number violation in J/ψ→Λc+e−+c.c
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Y. J. Mo, Z. X. Meng, X. A. Xiong, C. Sowa, Y. B. Zhao, W. Shan, A. A. Zafar, J. Dong, X. Q. Hao, Qiang Zhao, S. Nisar, C. J. Tang, K. H. Rashid, Y. Hu, Y. H. Zheng, R. Farinelli, Y. P. Lu, Y. T. Liang, A. Calcaterra, Z. G. Zhao, S. Fegan, Xichao Ruan, S. J. Chen, K. J. Li, Q. P. Ji, I. R. Boyko, P. Larin, Cong-Feng Qiao, H. L. Ma, P. L. Wang, D. M. Li, X. L. Luo, M. H. Gu, Liqing Xu, X. Y. Shen, N. Yu. Muchnoi, Yu Bai, X. S. Kang, Y. H. Zhang, H. H. Zhang, D. Xiao, H. Muramatsu, H. Y. Sheng, S. L. Olsen, W. P. Wang, Y. Ding, F. Bianchi, Z. J. Sun, Z. H. Wang, P. Musiol, Z. Y. Wang, C. Schnier, Y. Q. Wang, X. T. Huang, G. Rong, M. Pelizaeus, F. De Mori, C. X. Yu, L. Koch, A. Khoukaz, D. Y. Liu, B. J. Liu, J. F. Sun, X. Y. Zhou, B. Zheng, R. G. Ping, L. H. Wu, T. Holtmann, J. C. Li, M. Savrie, Zongyuan Wang, M. M. Ma, Yi Jin, Bibo Ke, W. Kühn, W. B. Yan, Z. Y. You, Z. A. Zhu, X. H. Mo, L. S. Wang, M. H. Ye, R. Baldini Ferroli, S. Marcello, Y. Zeng, X. K. Chu, Y. J. Xiao, J. Y. Liu, J. Zhuang, M. X. Luo, Q. Ouyang, Krisztian Peters, M. Z. Wang, Q. A. Malik, G. Mezzadri, W. C. Yan, X. H. Liu, Zhe Sun, S. Pacetti, J. P. Dai, X. F. Wang, L. L. Wang, H. Cai, G. Y. Tang, X. Q. He, P. Kiese, D. V. Dedovich, Z. Y. Qu, Q. M. Ma, S. S. Fang, Y. B. Liu, Q. Gao, J. Chai, Y. H. Xie, J. Pellegrino, X. N. Li, C. P. Shen, Y. N. Gao, A. Mustafa, G. X. Sun, J. V. Bennett, Li Yan, Peilian Liu, Z. Jiao, Haiping Peng, Manuel Lara, D. H. Zhang, Y. X. Zhou, Jie Zhao, D. X. Lin, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, Alexey Zhemchugov, H. M. Hu, X. Y. Niu, I. Tapan, S. B. Liu, Y. H. Yan, I. Uman, Y. Nefedov, R. A. Briere, Jun-Yi Zhang, Huanhuan Liu, G. Felici, Lingxuan Zhang, X. N. Ma, Z. P. Zhang, Y. Yuan, Y. S. Zhu, M. Maggiora, Ling Zhao, Lei Zhao, S. Ahmed, Y. X. Yang, Ke Li, Z. L. Hou, J. J. Song, Meng Wang, B. X. Yu, Zhi Zeng, L. Y. Dong, D. W. Bennett, Zujian Wang, F. H. Liu, Nicolas Berger, J. W. Zhang, L. Sun, Yunlong Zhang, Yu Zhang, Q. Liu, Tristan Weber, Kang Li, W. J. Zheng, R. Kliemt, H. J. Li, H. B. Li, Fang Liu, M. N. Achasov, A. Zallo, L. P. Zhou, C. L. Luo, X. Xia, M. Fritsch, Q. L. Xiu, Z. A. Liu, G. S. Huang, X. S. Jiang, C. C. Zhang, D. Bettoni, J. L. Zhang, B. Zhong, L. B. Guo, M. Kavatsyuk, F. A. Harris, S. Q. Zhang, Jie Yu, L. L. Ma, L. Gong, L. G. Xia, A. Amoroso, Y. M. Ma, Zhiqing Liu, F. Y. Li, H. S. Chen, Alperen Yuncu, Z. P. Mao, Y. X. Xia, V. Prasad, I. B. Nikolaev, X. K. Zhou, U. Wiedner, I. Denysenko, J. H. Yin, J. W. Zhao, Y. C. Zhu, H. L. Dai, Lei Li, Y. Z. Sun, Z. J. Xiao, P. L. Chen, H. Leithoff, F. Li, Y. Ban, P. Weidenkaff, B. X. Zhang, M. Shao, Y. T. Gu, A. Dbeyssi, Xiao-Rui Lyu, C. Z. Yuan, Jianping Zheng, A. Pitka, S. Zhu, T. Ma, F. C. Ma, T. J. Min, K. J. Zhu, G. Cibinetto, M. Kuhlmann, T. Johansson, J. F. Chang, Y. G. Gao, S. P. Wen, M. Kornicer, G. R. Liao, X. S. Qin, B. Y. Zhang, X. R. Zhou, J. Fang, Tao Li, Yao Wang, O. Cakir, Gang Zhao, E. Fioravanti, Cheng Li, J. F. Qiu, M. Papenbrock, A. Julin, B. Q. Wang, S. X. Du, M. G. Zhao, Y. H. Yang, R. P. Guo, J. Zhu, G. S. Varner, Ke Wang, K. Y. Liu, L. Fava, X. L. Kang, A. Sarantsev, D. H. Wei, P. R. Li, Y. F. Wang, T. Khan, O. B. Kolcu, F. Nerling, X. Fang, J. S. Lange, X. Cai, J. Q. Li, H. Xiao, F. Feldbauer, J. Z. Bai, Z. L. Huang, Yang Zhang, Feng Liu, M. Destefanis, M. Ablikim, X. Y. Jiang, Ch. Rosner, R. Poling, M. Kuessner, L. Lavezzi, P. F. Duan, F. H. Heinsius, Gianfranco Morello, T. Held, M. Kuemmel, Fenfen An, C. Hu, B. L. Wang, X. Tang, Magnus Wolke, X. L. Ji, T. C. Zhao, T. Hussain, M. Y. Dong, G. A. Chelkov, M. Rolo, Y. F. Liang, D. P. Jin, Z. Y. Zhang, X. Y. Ma, W. X. Gong, Dan Wang, Y. G. Xie, S. Gu, J. M. Bian, Z. L. Dou, S. J. Zhao, M. Richter, Z. Ning, H. Liang, X. P. Xu, X. B. Ji, M. Tiemens, M. Albrecht, W. D. Li, X. L. Gao, C. Dong, S. Sosio, B. T. Tsednee, Dayong Wang, N. Qin, P. Patteri, Joachim Pettersson, J. H. Zou, C. H. Li, Xiaozhong Huang, Q. J. Xu, X. H. Sun, S. S. Sun, J. C. Chen, Xuanhong Lou, Yao Zhang, Z. Gao, G. Li, S. L. Niu, Ke Liu, S. Leiber, Nasser Kalantar-Nayestanaki, X. Q. Li, Y. F. Long, C. D. Fu, C. Morales Morales, Yue Pan, R. E. Mitchell, Z. G. Wang, C. Q. Feng, X. R. Chen, Yaquan Fang, M. Greco, H. Y. Zhang, Shou-hua Zhu, Andrzej Kupsc, Z. Y. Deng, M. Ripka, Z. B. Li, M. L. Chen, W. Ikegami Andersson, G. F. Chen, Xingguo Li, J. Y. Zhang, K. Schoenning, Q. Y. Li, B. S. Zou, Y. K. Heng, G. F. Xu, S. Jin, X. Y. Song, K. Goetzen, L. D. Liu, J. J. Xu, J. S. Huang, C. X. Liu, A. Q. Guo, J. B. Jiao, W. M. Song, S. Qian, Q. An, Jialun Ping, K. Zhang, X. Y. Zhang, J. B. Liu, Y. J. Sun, Yifan Yang, E. Boger, H. R. Qi, Y. P. Guo, Serkant Ali Cetin, Z. H. Qin, W. G. Li, A. G. Denig, Y. K. Sun, S. Spataro, M. Qi, H. J. Yang, H. M. Liu, G. F. Cao, Y. J. Mao, H. X. Yang, I. Garzia, Huihui Liu, J. P. Liu, J. G. Messchendorp, Qiunan Xu, J. Min, H. B. Liu, B. Kopf, K. L. He, C. Leng, S. W. Han, Jimin Zhao, P. L. Li, C. F. Redmer, M. Bertani, Z. Haddadi, L. Yang, J. Q. Zhang, W. Gradl, D. Y. Wang, H. J. Lu, J. G. Lu, F. E. Maas, T. Hu, O. Bakina, P. X. Shen, Z. Wu, Zhiqing Zhang, and L. J. Wu
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Physics ,Particle physics ,010308 nuclear & particles physics ,Branching fraction ,Electron ,01 natural sciences ,Lepton number ,law.invention ,Baryon ,Positron ,law ,0103 physical sciences ,010306 general physics ,Collider - Abstract
Using 1.31×109 J/ψ events collected by the BESIII detector at the Beijing Electron Positron Collider, we search for the process J/ψ→Λc+e-+c.c. for the first time. In this process, both baryon and lepton number conservation is violated. No signal is found and the upper limit on the branching fraction B(J/ψ→Λc+e-+c.c.) is set to be 6.9×10-8 at the 90% confidence level.
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- 2019
49. Precision measurements of the e+e−→KS0K±π∓ Born cross sections at center-of-mass energies between 3.8 and 4.6 GeV
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S. Ahmed, Y. X. Yang, Kang Li, J. F. Qiu, M. Papenbrock, Xichao Ruan, Ke Wang, L. Fava, Y. H. Zheng, Cong-Feng Qiao, N. Yu. Muchnoi, M. H. Gu, H. Y. Sheng, M. Bertani, Z. Haddadi, L. Yang, R. Poling, P. F. Duan, F. H. Heinsius, Gianfranco Morello, Fenfen An, B. L. Wang, Y. Z. Sun, F. Nerling, X. Q. Hao, S. Nakhoul, F. De Mori, M. H. Ye, C. X. Yu, T. C. Zhao, Q. A. Malik, G. Mezzadri, W. C. Yan, Yang Zhang, H. B. Li, X. S. Kang, Y. H. Zhang, S. L. Olsen, M. Kuessner, L. D. Liu, S. B. Liu, L. Koch, A. Khoukaz, B. X. Yu, M. Kuemmel, P. Larin, C. L. Luo, Zhi Zeng, F. Y. Li, X. Y. Zhou, H. S. Chen, Alperen Yuncu, X. Xia, B. Zheng, H. L. Dai, R. Baldini Ferroli, Gang Zhao, L. Y. Dong, R. G. Ping, Zhiqing Liu, M. G. Zhao, Y. H. Yang, Z. Y. Wang, Krisztian Peters, M. Z. Wang, T. Khan, Y. Nefedov, X. N. Li, Z. P. Zhang, Y. T. Tan, R. P. Guo, M. N. Achasov, J. Zhu, L. P. Zhou, Haiping Peng, Y. M. Ma, S. Qian, Q. An, Jialun Ping, C. C. Zhang, B. Zhong, L. B. Guo, Lei Li, Y. Ding, W. Gradl, G. A. Chelkov, Huanhuan Liu, D. Y. Wang, D. W. Bennett, Zujian Wang, B. J. Liu, Z. A. Liu, G. Y. Tang, Z. P. Mao, J. Fang, Tao Li, W. J. Zheng, T. Johansson, J. F. Chang, J. Min, J. J. Xu, K. Zhang, X. L. Ji, X. Y. Zhang, H. B. Liu, J. B. Liu, F. Feldbauer, Manuel Lara, O. B. Kolcu, T. Ma, W. G. Li, X. F. Wang, Jie Zhao, D. X. Lin, V. Prasad, Z. X. Meng, B. Kopf, Dan Wang, Xu Shan, X. H. Liu, R. Farinelli, A. G. Denig, Y. Ban, Y. J. Sun, Yifan Yang, W. Kühn, J. C. Li, E. Boger, P. Weidenkaff, Ch. Rosner, S. Gu, J. P. Dai, J. Libby, Yaquan Fang, Alexey Zhemchugov, H. M. Hu, Y. H. Xie, J. Pellegrino, X. A. Xiong, F. H. Liu, X. Cai, L. Lavezzi, K. L. He, J. S. Huang, C. X. Liu, S. W. Han, G. Felici, S. P. Wen, M. Maggiora, Ling Zhao, R. Kliemt, I. B. Nikolaev, Lei Zhao, Z. L. Hou, G. R. Liao, Z. Y. Zhang, Z. Y. You, Z. A. Zhu, J. M. Zhang, Jimin Zhao, P. L. Li, J. Zhuang, H. L. Ma, M. X. Luo, D. M. Li, B. Q. Wang, Shou-hua Zhu, D. V. Dedovich, H. Muramatsu, M. Pelizaeus, Y. K. Sun, S. Spataro, M. Richter, Z. Ning, C. F. Redmer, K. Schoenning, Q. Y. Li, B. S. Zou, X. S. Qin, X. R. Zhou, Y. P. Lu, Cheng Li, Y. G. Xie, C. P. Shen, Q. M. Ma, J. F. Sun, Nicolas Berger, J. W. Zhang, S. Marcello, C. Sowa, Y. B. Zhao, J. H. Yin, M. Shao, Y. T. Gu, J. Q. Zhang, H. J. Lu, P. L. Wang, C. Z. Yuan, T. Holtmann, L. J. Wu, J. G. Lu, A. Mustafa, X. Y. Niu, Meng Wang, A. A. Zafar, E. Fioravanti, X. K. Chu, M. Qi, Y. Zeng, Zhe Sun, S. Lusso, H. Liang, H. J. Yang, J. Y. Liu, Q. P. Ji, M. Kuhlmann, Z. L. Dou, W. Shan, J. Dong, Y. J. Mo, X. K. Zhou, H. M. Liu, F. E. Maas, Z. L. Huang, K. H. Rashid, T. Hu, Feng Liu, M. Ablikim, X. Y. Jiang, Y. Yuan, Y. S. Zhu, T. Y. Qi, A. Calcaterra, Z. G. Zhao, S. Fegan, Yu Zhang, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, G. F. Xu, H. J. Li, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, Qiang Zhao, S. Nisar, S. Jin, J. J. Song, Q. L. Xiu, A. Guskov, O. Bakina, L. Sun, J. F. Hu, Xiao-Rui Lyu, F. A. Harris, C. J. Tang, Y. Hu, Yu Bai, H. H. Zhang, Y. X. Xia, Lingxuan Zhang, Ke Liu, P. X. Shen, Z. J. Sun, H. Leithoff, Y. T. Liang, Q. Gao, D. Xiao, Z. Gao, Z. Wu, H. R. Qi, X. Y. Song, Q. Liu, G. S. Varner, Y. N. Gao, I. R. Boyko, T. J. Min, K. J. Zhu, S. J. Chen, Y. Zhang, X. H. Mo, L. S. Wang, S. L. Niu, G. F. Cao, M. M. Ma, Y. X. Zhou, Y. G. Gao, Liqing Xu, K. Goetzen, Zhiqing Zhang, G. Cibinetto, X. Y. Shen, K. J. Li, Tristan Weber, Yao Wang, L. L. Ma, J. Z. Fan, L. Gong, Y. P. Guo, L. L. Wang, H. Cai, J. Chai, X. Q. Li, G. X. Sun, J. V. Bennett, Li Yan, X. N. Ma, Z. Jiao, D. H. Zhang, A. Zallo, X. L. Luo, L. G. Xia, A. Amoroso, X. P. Xu, X. B. Ji, M. Tiemens, M. Fritsch, P. Patteri, C. Schnier, Y. Q. Wang, M. Kavatsyuk, X. T. Huang, G. Rong, Y. F. Long, M. Alekseev, Yao Zhang, G. Li, W. P. Wang, B. X. Zhang, Serkant Ali Cetin, F. Bianchi, L. H. Wu, C. D. Fu, M. Savrie, A. Q. Guo, Yi Jin, A. Dbeyssi, C. Q. Feng, X. R. Chen, Y. J. Xiao, D. Y. Liu, J. B. Jiao, M. Kornicer, Zongyuan Wang, A. Julin, Q. Ouyang, S. S. Fang, W. M. Song, Y. B. Liu, K. Y. Liu, Z. H. Qin, Z. B. Li, W. Ikegami Andersson, Y. F. Wang, X D Shi, Y. J. Mao, H. X. Yang, T. Hussain, X. Y. Ma, I. Garzia, W. X. Gong, B. Garillon, Huihui Liu, J. G. Messchendorp, Qiunan Xu, C. H. Li, X. H. Sun, P. Kiese, R. A. Briere, G. S. Huang, X. S. Jiang, A. Pitka, O. Cakir, M. Y. Dong, I. Tapan, Y. H. Yan, J. W. Zhao, J. H. Zou, S. S. Sun, Y. C. Zhu, T. Held, Mario Greco, R. E. Mitchell, Bibo Ke, M. Albrecht, W. B. Yan, W. D. Li, B. T. Tsednee, S. Pacetti, Ke Li, Fang Liu, U. Wiedner, I. Denysenko, Xiaozhong Huang, B. Y. Zhang, Andrzej Kupsc, M. L. Chen, Magnus Wolke, Y. F. Liang, D. P. Jin, Dayong Wang, N. Qin, I. Uman, Z. J. Xiao, P. L. Chen, Yunlong Zhang, D. Bettoni, J. L. Zhang, Jianping Zheng, S. Zhu, S. X. Du, M. Destefanis, X. L. Gao, C. Dong, S. Sosio, S. J. Zhao, Joachim Pettersson, Q. J. Xu, X. Tang, J. C. Chen, Xuanhong Lou, M. Rolo, S. Leiber, Nasser Kalantar-Nayestanaki, C. Morales Morales, Yue Pan, F. Cossio, Z. G. Wang, H. Y. Zhang, G. F. Chen, J. Y. Zhang, Y. K. Heng, Z. Y. Deng, M. Ripka, Xingguo Li, F. Li, and F. C. Ma
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Nuclear physics ,Physics ,010308 nuclear & particles physics ,Electron–positron annihilation ,0103 physical sciences ,Detector ,Pi ,Measure (physics) ,Center of mass ,Born approximation ,010306 general physics ,01 natural sciences ,Storage ring - Abstract
Using data samples collected by the BESIII detector operating at the BEPCII storage ring, we measure the e+e- → K0SK±π∓ Born cross sections at center-of-mass energies between 3.8 and 4.6 GeV, corre ...
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- 2019
50. Precision Measurement of the Branching Fractions of <math><mrow><msup><mrow><mi>η</mi></mrow><mrow><mo>′</mo></mrow></msup></mrow></math> Decays
- Author
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Y. B. Zhao, J. Dong, L. Koch, A. Khoukaz, S. Nisar, M. Kuemmel, Matthew Glenn Kurth, W. Shan, D. Y. Liu, J. B. Jiao, R. Baldini Ferroli, C. J. Tang, Y. Hu, Y. P. Lu, Z. A. Liu, S. J. Zhao, P. Kiese, H. J. Lu, J. G. Lu, M. Qi, J. J. Xu, Z. Q. Yang, F. E. Maas, T. Hu, O. Bakina, P. X. Shen, Z. Wu, Zhiqing Zhang, D. Xiao, Q. J. Xu, J. C. Chen, Xuanhong Lou, S. Leiber, Nasser Kalantar-Nayestanaki, Z. X. Meng, X. A. Xiong, Huanhuan Liu, T. Khan, G. Felici, Q. Liu, H. J. Yang, I. Uman, J. S. Huang, C. X. Liu, X. N. Li, Haiping Peng, J. Libby, R. Kliemt, Guangshun Huang, X. L. Ji, A. A. Zafar, Y. Ding, X. Y. Jiang, M. M. Ma, R. A. Briere, X. S. Jiang, Ke Wang, A. Mangoni, L. Yan, M. Kuessner, C. Morales Morales, K. H. Rashid, Z. G. Wang, H. Y. Zhang, Haiwen Liu, F. Feldbauer, A. Guskov, Jie Yu, L. L. Ma, L. Gong, Y. Ban, P. Weidenkaff, F. H. Heinsius, J. C. Li, J. Zhuang, M. X. Luo, D. V. Dedovich, S. Nakhoul, P. Larin, S. F. Zhang, Yaquan Fang, M. Albrecht, Y. T. Liang, W. Imoehl, Y. G. Xie, Z. L. Huang, S. J. Chen, Feng Liu, P. L. Wang, G. F. Xu, M. Ablikim, Y. Pan, Xu Zhou, Krisztian Peters, B. J. Liu, A. Pitka, G. F. Chen, A. Amoroso, K. J. Li, P. F. Duan, S. X. Du, Muhammad Irshad, K. J. Zhu, J. Chai, Fenfen An, V. Prasad, Z. L. Dou, S. Han, W. D. Li, B. L. Wang, G. X. Sun, J. V. Bennett, S. P. Wen, X. R. Zhou, T. Y. Qi, W. Kühn, S. L. Yang, Zhiqing Liu, G. Cibinetto, A. Dbeyssi, R. Farinelli, J. Y. Zhang, T. C. Zhao, G. A. Chelkov, H. J. Li, P. W. Luo, Z. Jiao, Fu-Hu Liu, D. H. Zhang, G. R. Liao, Cheng Li, Y. X. Xia, S. H. Zhu, L. H. Wu, K. Schoenning, Q. Y. Li, B. S. Zou, Z. Y. You, Z. A. Zhu, H. B. Li, A. G. Denig, C. L. Luo, S. Qian, Q. An, Jialun Ping, K. Zhang, X. Xia, Q. Zhou, B. T. Tsednee, T. Johansson, M. Savrie, J. F. Chang, Niklaus Berger, Xiao-Rui Lyu, Q. A. Malik, F. A. Harris, W. L. Chang, Q. L. Xiu, X. N. Ma, H. Leithoff, Yi Jin, H. H. Wang, S. B. Liu, Stephen Lars Olsen, H. L. Ma, Y. H. Xie, J. Pellegrino, T. Weber, J. W. Li, L. Xia, Y. Zhang, Tao Luo, D. M. Li, C. C. Zhang, G. Mezzadri, X. Y. Zhang, B. Zhong, L. B. Guo, Y. J. Xiao, Angelo Rivetti, F. Li, F. C. Ma, Y. G. Gao, L. K. Li, Zongyuan Wang, Jun-Yi Zhang, Y. P. Guo, Y. F. Wang, Y. H. Zheng, Cong-Feng Qiao, O. B. Kolcu, J. L. Zhang, F. F. Sui, L. Zhang, C. P. Shen, Y. Nefedov, Bibo Ke, X. H. Mo, L. S. Wang, J. B. Liu, M. Maggiora, Ling Zhao, W. M. Song, H. Muramatsu, A. N. Zhu, Ulrich Wiedner, N. Yu. Muchnoi, Tao Zhang, Y. J. Sun, Yifan Yang, L. M. Gu, G. Y. Tang, X. Cai, L. Lavezzi, L. P. Zhou, B. Wang, B. X. Yu, Y. M. Ma, Z. P. Zhang, M. H. Ye, X. B. Ji, M. Tiemens, M. H. Gu, R. Kiuchi, X. S. Kang, F. De Mori, W. B. Yan, H. Y. Sheng, Z. P. Mao, L. J. Wu, Jie Zhao, D. X. Lin, J. F. Sun, R. X. Yang, Y. H. Zhang, Xu Shan, Lei Zhao, Z. L. Hou, Alexey Zhemchugov, H. M. Hu, C. F. Redmer, J. F. Qiu, L. Fava, P. Patteri, P. L. Chen, D. W. Bennett, Zujian Wang, X. Q. Hao, Y Q Wang, Z. Y. Wang, Y. H. Yan, Q. Ouyang, C. X. Yu, Y. Bai, M. N. Achasov, Meng Wang, X. Y. Zhou, M. Kavatsyuk, J. Fang, Tao Li, M. Pelizaeus, L. L. Wang, H. Cai, H. S. Chen, A. Calcaterra, Z. G. Zhao, H. L. Dai, Igor Boyko, X. T. Huang, Michael Papenbrock, Bingxuan Liu, F. Yan, S. Marcello, B. Zheng, R. G. Ping, J. Min, Y. Zeng, L. Z. Liao, M. Richter, Z. Ning, S. S. Fang, W. S. Cheng, J. W. Zhao, Yao Zhang, G. Li, T. Hussain, Yang Zhang, X. Y. Ma, Y. C. Zhu, W. X. Gong, Zhe Sun, S. Lusso, H. H. Zhang, Z. Gao, S. Pacetti, A. Gilman, B. X. Zhang, X. Liu, M. Alekseev, H. R. Qi, Ch. Rosner, Z. J. Sun, C. D. Fu, J. Y. Liu, Y. B. Liu, Z. J. Xiao, B. Kopf, X. F. Wang, S. Maldaner, C. Q. Feng, X. R. Chen, X. K. Chu, Z. Y. Deng, Y. K. Heng, Cui Li, C. Z. Yuan, L. D. Liu, Y. B. Chen, Xingguo Li, L. Y. Dong, K. L. He, X. H. Sun, H. Liang, Xiaofeng Zhu, J. Z. Zhang, M. Z. Wang, Q. M. Ma, J. F. Hu, A. Mustafa, Zhiyong Zhang, X. L. Luo, J. J. Song, L. Sun, E. Boger, T. Held, Serkant Ali Cetin, W. J. Zheng, Ke Li, Jimin Zhao, P. L. Li, J. Q. Zhang, S. L. Niu, F. Nerling, Q. Gao, Y. N. Gao, M. Fritsch, F. Y. Li, X. Q. Li, Y. F. Long, M. Greco, M. Bertani, Z. Haddadi, K. Begzsuren, L. Yang, Magnus Wolke, Y. F. Liang, D. P. Jin, K. Y. Liu, Jianhao Zhang, M. Y. Dong, S. Q. Qu, Z. B. Li, W. Ikegami Andersson, I. B. Nikolaev, M. G. Zhao, Y. H. Yang, J. H. Yin, R. P. Guo, J. Zhu, Y. T. Tan, F. Bianchi, W. Gradl, M. Ripka, Dayong Wang, N. Qin, Ke Liu, D. Y. Wang, J. Z. Fan, M. Shao, Y. T. Gu, Xiaozhong Huang, Andrzej Kupsc, S. Ahmed, H. B. Liu, M. L. Chen, Y. X. Yang, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, Kang Li, J. H. Zou, Q. Zhao, S. S. Sun, Y. Z. Sun, Xiang Zhou, I. K. Keshk, X. S. Qin, Niu Xiaoyang, C. X. Lin, Gang Zhao, R. E. Mitchell, X. K. Zhou, Fang Liu, I. Denysenko, W. C. Yan, B. Y. Zhang, Y. Yuan, Y. S. Zhu, Yu Zhang, A. Q. Guo, Z. Y. Peng, C. W. Wang, G. Rong, W. P. Wang, Z. H. Qin, X D Shi, Y. J. Mao, H. X. Yang, I. Garzia, Y. J. Mo, Q. P. Ji, Liqing Xu, X. Y. Shen, B. Garillon, Huihui Liu, J. G. Messchendorp, J. P. Dai, W. G. Li, X. Tang, Y. K. Sun, Xiaoyu Zhou, S. Spataro, X. P. Xu, A. Yuncu, M. Rolo, Lei Li, G. F. Cao, F. Cossio, Yunlong Zhang, H. L. Liu, D. Bettoni, R. Poling, H. L. Jiang, Jianping Zheng, S. Zhu, T. J. Min, X. Y. Song, M. Destefanis, X. L. Gao, Shan Jin, K. Goetzen, C. Dong, S. Sosio, Joachim Pettersson, C. Sowa, and İstanbul Arel Üniversitesi
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Physics ,Branching fraction ,Electron–positron annihilation ,ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS ,General Physics and Astronomy ,Branching (polymer chemistry) ,01 natural sciences ,High Energy Physics - Experiment ,NO ,Crystallography ,ComputingMilieux_MANAGEMENTOFCOMPUTINGANDINFORMATIONSYSTEMS ,ComputingMethodologies_PATTERNRECOGNITION ,0103 physical sciences ,ddc:530 ,InformationSystems_MISCELLANEOUS ,010306 general physics - Abstract
PubMed ID: 31050481, Based on a sample of (1310.6±7.0)×106J/? events collected with the BESIII detector, we present measurements of J/? and ?? absolute branching fractions using the process J/?????. By analyzing events where the radiative photon converts into an e+e-pair, the branching fraction for J/????? is measured to be (5.27±0.03±0.05)×10-3. The absolute branching fractions of the five dominant decay channels of the ?? are then measured for the first time and are determined to be B(?????+?-)=(29.90±0.03±0.55)%, B(?????+?-)=(41.24±0.08±1.24)%, B(?????0?0)=(21.36±0.10±0.92)%, B(?????)=(2.489±0.018±0.074)%, and B(?????)=(2.331±0.012±0.035)%, where the first uncertainties are statistical and the second systematic. © 2019 authors. Published by the American Physical Society.
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- 2019
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