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17,296 results on '"Y Deng"'

105. [Clinical controversy and research thoughts on lymphadenectomy of gastric cancer]

Author

J Y, Deng and B Q, Ren

Subjects
Gastrectomy, Stomach Neoplasms, Lymphatic Metastasis, Humans, Lymph Node Excision, Prognosis
Abstract

Lymphadenectomy, as one of the controversial foci in clinic, is an extremely important part of radical surgery for gastric cancer. So far, the preliminary consensus has been reached on the scope and number of lymph node dissection, based on the etiological mechanism, disease progression, diagnosis and treatment prognosis of gastric cancer. At present, some clinical issues of lymphadenectomy in curative gastrectomy are still need to be addressed. Firstly, standardized procedure in lymph node dissection for gastric cancer is a prerequisite to decrease the incidence of postoperative complications and to improve the prognosis of gastric cancer patients. Furthermore, the plausible treatment strategy in perioperative phase is also deemed as the other key method to offer a benefit of survival rate for advanced stage patients after lymphadenectomy. Last but not least, the technologies for enhancement the prediction accuracy of lymph node metastasis preoperatively or intraoperatively should be worthy in-depth study.淋巴结清扫是胃癌根治性手术中极其重要的操作步骤,也是临床富有争议的焦点之一。目前,依据胃癌的病因机制、病程演进和诊治转归,对于淋巴结清扫的范围和数目已经达成初步的共识,但现阶段在胃癌淋巴结清扫中仍然存有不少需要解决的临床问题。规范化的手术操作是降低淋巴结清扫后并发症发生率和改善患者预后的必要前提,围手术期合理治疗策略的实施则是进一步提高进展期患者淋巴结清扫后生存率的重要方式,增强淋巴结转移的术前和术中检测准确性则仍需要继续深入的研究。.

Published
2022

106. [Progress in the practice of surveillance and early warning of infectious diseases in major countries and regions]

Author

S, Huang, C X, Liu, Y, Deng, C H, Zhang, S M, Fan, J D, Zheng, and L P, Wang

Subjects
China, COVID-19, Humans, Communicable Diseases, Pandemics, Disease Outbreaks
Abstract

The COVID-19 pandemic is yet another reminder that the threat of infectious disease has never really gone away. As the cornerstone of preventing and controlling infectious diseases, effective surveillance and early warning are of great significance in understanding the outbreak and epidemic of specific infectious diseases and putting forward effective prevention and control measures. Therefore, we must continue strengthening the construction of infectious disease surveillance and early warning system. We reviewed the surveillance and early warning practices of infectious diseases in major countries and regions, then discussed the development direction in the field of surveillance and early warning of infectious diseases to provide the reference for strengthening the construction and capacity of infectious disease surveillance and early warning system in China.新型冠状病毒肺炎大流行再次警示人们,传染病威胁从未真正远去。有效的监测预警作为传染病防控的基石,对全面准确地认识特定传染病暴发流行、提出科学有效的防控策略和措施具有重要意义,因此须持续加强传染病监测预警体系建设。本文对世界主要国家和地区的传染病监测预警实践进行综述,探讨了传染病监测预警领域的发展方向,为进一步加强我国传染病监测预警体系建设与能力提升提供参考。.

Published
2022

107. [Effect of dexamethasone combined with oxybuprocaine hydrochloride gel on prevention of postoperative sore throat after nasal endoscopy]

Author

C M, Shi, X D, Wang, Y K, Liu, Y, Deng, and X Y, Guo

Subjects
Adult, Adolescent, Pain, Endoscopy, Pharyngitis, Middle Aged, Dexamethasone, Remifentanil, 论著, Young Adult, Postoperative Complications, Bradycardia, Intubation, Intratracheal, Humans, Hypotension, Rocuronium, Propofol, Procaine, Aged
Abstract

OBJECTIVE: To explore the effectiveness and feasibility of dexamethasone combined with oxybuprocaine hydrochloride gel on the prevention of postoperative sore throat after nasal endoscopy. METHODS: In the study, 60 patients with American Society of Anesthesiologist (ASA) physical statuses Ⅰ to Ⅱ, aged 18 to 72 years, scheduled for elective nasal endoscope surgery under general anesthesia requiring endotracheal intubation were randomly divided into dexamethasone combined with oxybuprocaine hydrochloride gel group (G group, n=30) and control group (C group, n=30). The patients in the G group received dexamethasone 0.1 mg/kg before induction and the oxybuprocaine gel was applied to the endotracheal catheter cuff and the front end within 15 cm. The patients in the C group received the same dose of saline and the saline was applied to the endotracheal catheter cuff and the front end within 15 cm. Then, all the patients in the two groups received the same induction and anesthesia maintainance. The operation time, anesthesia time, emergence time, extubation time and departure time were recorded. The intraoperative infusion volume, blood loss volume, propofol, remifentanil, rocuronium dosage were also recorded. The adverse reactions such as intraoperative hypotension, bradycardia and postoperative agitation were recorded. The postoperative sore throat score was recorded at the end of operation and 4 h, 8 h, 12 h, and 24 h after operation. RESULTS: Compared with the C group, the emergence time [(8.4±3.9) min vs. (10.8±4.7) min], extubation time [(8.8±3.7) min vs. (11.9±4.8) min], and departure time [(20.0±5.3) min vs. (23.0±5.8) min] were significantly shorter, and the propofol dosage [(11.8±1.8) mg/kg vs. (15.9±4.6) mg/kg], remifentanil dosage [(10.9±4.7) μg/kg vs. (14.1±3.6) μg/kg] were significantly less in the G group, and there was no difference of rocuronium dosage in the two groups. Compared with the C group the incidence of intraoperative hypotension [10%(3/30) vs. 30%(9/30)], bradycardia [16.7%(5/30) vs. 20%(6/30)] and postoperative agitation [6.7%(2/30) vs. 23.3%(7/30)] were significantly lower in the C group. The postoperative sore throat score at the end of operation, 4 h, 8 h, 12 h and 24 h after operation in the G group were significantly lower than in the C group respectively [0 (0, 1) vs. 1 (1, 2), 0 (0, 0) vs. 1 (1, 2), 0 (0, 0) vs. 1 (1, 2), 0 (0, 0) vs. 1 (0.75, 1), 0 (0, 0) vs. 1 (0, 1)]. CONCLUSION: Dexamethasone combined with oxybuprocaine hydrochloride gel was effective and feasible on the prevention of postoperative sore throat after nasal endoscopy.

Published
2022

109. Exploring the intrinsic energy resolution of liquid scintillator to approximately 1 MeV electrons

Author

Y. Deng, X. Sun, B. Qi, J. Li, W. Yan, L. Li, H. Jiang, C. Wang, X. Cai, T. Hu, J. Fang, X. Fan, F. Gu, J. Lv, X. Ling, G. Qu, X. Qi, L. Sun, L. Zhou, B. Yu, Y. Xie, J. Ye, Z. Zhu, Y. Zh, and G. Zuo

Subjects
High Energy Physics - Experiment (hep-ex), Physics - Instrumentation and Detectors, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Instrumentation, Mathematical Physics, High Energy Physics - Experiment
Abstract

We proposed a novel method for exploring the intrinsic energy resolution of a liquid scintillator (LAB + 2.5 g/L PPO + 3 mg/L bis-MSB) for approximately 1 MeV electrons. With the help of coincidence detection technology, single-energy electrons of Bi 207 were effectively selected. With careful measurement and analysis of the energy resolution of a small liquid scintillator detector, the intrinsic energy resolution to 976 keV electrons was extracted to be 1.83%. We used the wide-angle Compton coincidence (WACC) method to measure the luminescent nonlinearity of the liquid scintillator and found that it contributes only weakly to the intrinsic energy resolution of electrons. Such an unexpected large intrinsic energy resolution may come from fluctuations in energy transfer processes., 16 pages, 13 figures

Published
2022

110. [Analysis of lactate dehydrogenase gene polymorphisms and prediction of B cell epitopes in four human

Author

H R, Huang, Y, Dong, Y, Deng, Y C, Xu, M N, Chen, Y, Liu, and C L, Zhang

Subjects
China, Plasmodium, Polymorphism, Genetic, L-Lactate Dehydrogenase, Plasmodium falciparum, Protozoan Proteins, Epitopes, B-Lymphocyte, Humans, Plasmodium vivax
Abstract

To analyze the polymorphism ofThe blood samples and epidemiological characteristics were collected from malaria cases in Yunnan Province registered in the National Notifiable Disease Report System. TheThe sequences ofThe

Published
2022

111. [Evaluation of efficiency of different anti-cysticercus antibody test kits for serodiagnosis of cysticercosis]

Author

Y L, Zhang, T T, Jiang, P H, Ji, Z Q, He, X, Chen, Y, Hong, D Y, Zhao, Y, Deng, W Q, Chen, and H W, Zhang

Subjects
Cysticercosis, Antibodies, Helminth, Animals, Humans, Enzyme-Linked Immunosorbent Assay, Serologic Tests, Cysticercus, Reagent Kits, Diagnostic, Sensitivity and Specificity
Abstract

To evaluate the diagnostic efficiency of four anti-cysticercus IgG, IgG4 or IgM antibody test kits (enzyme-linked immunosorbent assay, ELISA) by different manufacturers, so as to provide insights into the epidemiological investigation and clinical detection of cysticercosis.Forty serum samples from cerebral cysticercosis patients, 100 serum samples from healthy volunteers, 30 serum samples from paragonimiasis skrjabini patients, 17 serum samples from cystic echinococcosis and 19 serum samples from subcutaneous or cerebral sparganosis patients were collected and detected using anti-cysticercus IgG, IgG4 or IgM antibody test kits (brand A) and the anti-cysticercus IgG antibody test kit (brand B). The sensitivity, specificity and false negative rate of the four kits for detection of cysticercosis were estimated.The anti-cysticercus IgG, IgG4 or IgM antibody test kits (brand A) showed 95.00% (38/40), 87.50% (35/40), 7.50% (3/40) sensitivities and 98.00% (98/100), 100.00% (100/100) and 100.00% (100/100) for detection of cysticercosis, while the anti-cysticercus IgG antibody test kit (brand B) presented a 75.00% (30/40) sensitivity and 100.00% (100/100) specificity for detection of cysticercosis. The sensitivity for detection of cysticercosis was significantly higher by the anti-cysticercus IgG antibody test kit (brand A) than by the anti-cysticercus IgG antibody test kit (brand B) (The four anti-cysticercus IgG, IgG4 or IgM antibody test kits exhibit various efficiencies for serodiagnosis of cysticercosis. The anti-cysticercus IgG antibody test kit (brand A) has a high sensitivity for serodiagnosis of cysticercosis; however, it still needs to solve the problems of cross-reaction with other parasitic diseases and stability.

Published
2022

114. Search for hidden-charm tetraquark with strangeness in *

Author

M. Ablikim, M. N. Achasov, P. Adlarson, M. Albrecht, R. Aliberti, A. Amoroso, M. R. An, Q. An, Y. Bai, O. Bakina, R. Baldini Ferroli, I. Balossino, Y. Ban, V. Batozskaya, D. Becker, K. Begzsuren, N. Berger, M. Bertani, D. Bettoni, F. Bianchi, E. Bianco, J. Bloms, A. Bortone, I. Boyko, R. A. Briere, A. Brueggemann, H. Cai, X. Cai, A. Calcaterra, G. F. Cao, N. Cao, S. A. Cetin, J. F. Chang, W. L. Chang, G. R. Che, G. Chelkov, C. Chen, Chao Chen, G. Chen, H. S. Chen, M. L. Chen, S. J. Chen, S. M. Chen, T. Chen, X. R. Chen, X. T. Chen, Y. B. Chen, Z. J. Chen, W. S. Cheng, S. K. Choi, X. Chu, G. Cibinetto, F. Cossio, J. J. Cui, H. L. Dai, J. P. Dai, A. Dbeyssi, R. E. de Boer, D. Dedovich, Z. Y. Deng, A. Denig, I. Denysenko, M. Destefanis, F. De Mori, Y. Ding, J. Dong, L. Y. Dong, M. Y. Dong, X. Dong, S. X. Du, Z. H. Duan, P. Egorov, Y. L. Fan, J. Fang, S. S. Fang, W. X. Fang, Y. Fang, R. Farinelli, L. Fava, F. Feldbauer, G. Felici, C. Q. Feng, J. H. Feng, K Fischer, M. Fritsch, C. Fritzsch, C. D. Fu, H. Gao, Y. N. Gao, Yang Gao, S. Garbolino, I. Garzia, P. T. Ge, Z. W. Ge, C. Geng, E. M. Gersabeck, A Gilman, K. Goetzen, L. Gong, W. X. Gong, W. Gradl, M. Greco, L. M. Gu, M. H. Gu, Y. T. Gu, C. Y Guan, A. Q. Guo, L. B. Guo, R. P. Guo, Y. P. Guo, A. Guskov, W. Y. Han, X. Q. Hao, F. A. Harris, K. K. He, K. L. He, F. H. Heinsius, C. H. Heinz, Y. K. Heng, C. Herold, G. Y. Hou, Y. R. Hou, Z. L. Hou, H. M. Hu, J. F. Hu, T. Hu, Y. Hu, G. S. Huang, K. X. Huang, L. Q. Huang, X. T. Huang, Y. P. Huang, Z. Huang, T. Hussain, N Hüsken, W. Imoehl, M. Irshad, J. Jackson, S. Jaeger, S. Janchiv, E. Jang, J. H. Jeong, Q. Ji, Q. P. Ji, X. B. Ji, X. L. Ji, Y. Y. Ji, Z. K. Jia, P. C. Jiang, S. S. Jiang, X. S. Jiang, Y. Jiang, J. B. Jiao, Z. Jiao, S. Jin, Y. Jin, M. Q. Jing, T. Johansson, S. Kabana, N. Kalantar-Nayestanaki, X. L. Kang, X. S. Kang, R. Kappert, M. Kavatsyuk, B. C. Ke, I. K. Keshk, A. Khoukaz, R. Kiuchi, R. Kliemt, L. Koch, O. B. Kolcu, B. Kopf, M. Kuemmel, M. Kuessner, A. Kupsc, W. Kühn, J. J. Lane, J. S. Lange, P. Larin, A. Lavania, L. Lavezzi, T. T. Lei, Z. H. Lei, H. Leithoff, M. Lellmann, T. Lenz, C. Li, C. H. Li, Cheng Li, D. M. Li, F. Li, G. Li, H. Li, H. B. Li, H. J. Li, H. N. Li, J. Q. Li, J. S. Li, J. W. Li, Ke Li, L. J Li, L. K. Li, Lei Li, M. H. Li, P. R. Li, S. X. Li, S. Y. Li, T. Li, W. D. Li, W. G. Li, X. H. Li, X. L. Li, Xiaoyu Li, Y. G. Li, Z. X. Li, Z. Y. Li, C. Liang, H. Liang, Y. F. Liang, Y. T. Liang, G. R. Liao, L. Z. Liao, J. Libby, A. Limphirat, C. X. Lin, D. X. Lin, T. Lin, B. J. Liu, C. Liu, C. X. Liu, D. Liu, F. H. Liu, Fang Liu, Feng Liu, G. M. Liu, H. Liu, H. B. Liu, H. M. Liu, Huanhuan Liu, Huihui Liu, J. B. Liu, J. L. Liu, J. Y. Liu, K. Liu, K. Y. Liu, Ke Liu, L. Liu, Lu Liu, M. H. Liu, P. L. Liu, Q. Liu, S. B. Liu, T. Liu, W. K. Liu, W. M. Liu, X. Liu, Y. Liu, Y. B. Liu, Z. A. Liu, Z. Q. Liu, X. C. Lou, F. X. Lu, H. J. Lu, J. G. Lu, X. L. Lu, Y. Lu, Y. P. Lu, Z. H. Lu, C. L. Luo, M. X. Luo, T. Luo, X. L. Luo, X. R. Lyu, Y. F. Lyu, F. C. Ma, H. L. Ma, L. L. Ma, M. M. Ma, Q. M. Ma, R. Q. Ma, R. T. Ma, X. Y. Ma, Y. Ma, F. E. Maas, M. Maggiora, S. Maldaner, S. Malde, Q. A. Malik, A. Mangoni, Y. J. Mao, Z. P. Mao, S. Marcello, Z. X. Meng, J. G. Messchendorp, G. Mezzadri, H. Miao, T. J. Min, R. E. Mitchell, X. H. Mo, N. Yu. Muchnoi, Y. Nefedov, F. Nerling, I. B. Nikolaev, Z. Ning, S. Nisar, Y. Niu, S. L. Olsen, Q. Ouyang, S. Pacetti, X. Pan, Y. Pan, A. Pathak, Y. P. Pei, M. Pelizaeus, H. P. Peng, K. Peters, J. L. Ping, R. G. Ping, S. Plura, S. Pogodin, V. Prasad, F. Z. Qi, H. Qi, H. R. Qi, M. Qi, T. Y. Qi, S. Qian, W. B. Qian, Z. Qian, C. F. Qiao, J. J. Qin, L. Q. Qin, X. P. Qin, X. S. Qin, Z. H. Qin, J. F. Qiu, S. Q. Qu, K. H. Rashid, C. F. Redmer, K. J. Ren, A. Rivetti, V. Rodin, M. Rolo, G. Rong, Ch. Rosner, S. N. Ruan, A. Sarantsev, Y. Schelhaas, C. Schnier, K. Schoenning, M. Scodeggio, K. Y. Shan, W. Shan, X. Y. Shan, J. F. Shangguan, L. G. Shao, M. Shao, C. P. Shen, H. F. Shen, W. H. Shen, X. Y. Shen, B. A. Shi, H. C. Shi, J. Y. Shi, q. q. Shi, R. S. Shi, X. Shi, J. J. Song, W. M. Song, Y. X. Song, S. Sosio, S. Spataro, F. Stieler, P. P. Su, Y. J. Su, G. X. Sun, H. Sun, H. K. Sun, J. F. Sun, L. Sun, S. S. Sun, T. Sun, W. Y. Sun, Y. J. Sun, Y. Z. Sun, Z. T. Sun, Y. H. Tan, Y. X. Tan, C. J. Tang, G. Y. Tang, J. Tang, L. Y. Tao, Q. T. Tao, M. Tat, J. X. Teng, V. Thoren, W. H. Tian, Y. Tian, I. Uman, B. Wang, B. L. Wang, C. W. Wang, D. Y. Wang, F. Wang, H. J. Wang, H. P. Wang, K. Wang, L. L. Wang, M. Wang, M. Z. Wang, Meng Wang, S. Wang, T. Wang, T. J. Wang, W. Wang, W. H. Wang, W. P. Wang, X. Wang, X. F. Wang, X. L. Wang, Y. Wang, Y. D. Wang, Y. F. Wang, Y. H. Wang, Y. Q. Wang, Yaqian Wang, Z. Wang, Z. Y. Wang, Ziyi Wang, D. H. Wei, F. Weidner, S. P. Wen, D. J. White, U. Wiedner, G. Wilkinson, M. Wolke, L. Wollenberg, J. F. Wu, L. H. Wu, L. J. Wu, X. Wu, X. H. Wu, Y. Wu, Y. J Wu, Z. Wu, L. Xia, T. Xiang, D. Xiao, G. Y. Xiao, H. Xiao, S. Y. Xiao, Y. L. Xiao, Z. J. Xiao, C. Xie, X. H. Xie, Y. Xie, Y. G. Xie, Y. H. Xie, Z. P. Xie, T. Y. Xing, C. F. Xu, C. J. Xu, G. F. Xu, H. Y. Xu, Q. J. Xu, X. P. Xu, Y. C. Xu, Z. P. Xu, F. Yan, L. Yan, W. B. Yan, W. C. Yan, H. J. Yang, H. L. Yang, H. X. Yang, Tao Yang, Y. F. Yang, Y. X. Yang, Yifan Yang, M. Ye, M. H. Ye, J. H. Yin, Z. Y. You, B. X. Yu, C. X. Yu, G. Yu, T. Yu, X. D. Yu, C. Z. Yuan, L. Yuan, S. C. Yuan, X. Q. Yuan, Y. Yuan, Z. Y. Yuan, C. X. Yue, A. A. Zafar, F. R. Zeng, X. Zeng, Y. Zeng, X. Y. Zhai, Y. H. Zhan, A. Q. Zhang, B. L. Zhang, B. X. Zhang, D. H. Zhang, G. Y. Zhang, H. Zhang, H. H. Zhang, H. Q. Zhang, H. Y. Zhang, J. L. Zhang, J. Q. Zhang, J. W. Zhang, J. X. Zhang, J. Y. Zhang, J. Z. Zhang, Jianyu Zhang, Jiawei Zhang, L. M. Zhang, L. Q. Zhang, Lei Zhang, P. Zhang, Q. Y. Zhang, Shuihan Zhang, Shulei Zhang, X. D. Zhang, X. M. Zhang, X. Y. Zhang, Y. Zhang, Y. T. Zhang, Y. H. Zhang, Yan Zhang, Yao Zhang, Z. H. Zhang, Z. L. Zhang, Z. Y. Zhang, G. Zhao, J. Zhao, J. Y. Zhao, J. Z. Zhao, Lei Zhao, Ling Zhao, M. G. Zhao, S. J. Zhao, Y. B. Zhao, Y. X. Zhao, Z. G. Zhao, A. Zhemchugov, B. Zheng, J. P. Zheng, Y. H. Zheng, B. Zhong, C. Zhong, X. Zhong, H. Zhou, L. P. Zhou, X. Zhou, X. K. Zhou, X. R. Zhou, X. Y. Zhou, Y. Z. Zhou, J. Zhu, K. Zhu, K. J. Zhu, L. X. Zhu, S. H. Zhu, S. Q. Zhu, T. J. Zhu, W. J. Zhu, Y. C. Zhu, Z. A. Zhu, J. H. Zou, J. Zu, and null (BESIII Collaboration)

Subjects
Nuclear and High Energy Physics, Astronomy and Astrophysics, Instrumentation
Abstract

We report a search for a heavier partner of the recently observed state, denoted as , in the process , based on collision data collected at the center-of-mass energies of , 4.682 and 4.699 GeV with the BESIII detector. The is of interest as it is expected to be a candidate for a hidden-charm and open-strange tetraquark. A partial-reconstruction technique is used to isolate recoil-mass spectra, which are probed for a potential contribution from ( ). We find an excess of ( ) candidates with a significance of , after considering systematic uncertainties, at a mass of . As the data set is limited in size, the upper limits are evaluated at the 90% confidence level on the product of the Born cross sections ( ) and the branching fraction ( ) of , under different assumptions of the mass from 4.120 to 4.140 MeV and of the width from 10 to 50 MeV at the three center-of-mass energies. The upper limits of are found to be at the level of pb at each energy. Larger data samples are needed to confirm the state and clarify its nature in the coming years.

Published
2023
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124. [Effectiveness of training on

Author

W Q, Chen, T T, Jiang, Y, Deng, Y L, Zhang, X, Chen, Y, Hong, D Y, Zhao, X M, Lin, and H W, Zhang

Subjects
Male, Knowledge, Cysticercosis, Taenia solium, Animals, Humans, Female, Health Education, Taeniasis
Abstract

To investigate the changes in the awareness rate ofThree townships in Fangcheng County were randomly selected as the study townships, including Dushu, Bowang and Yangji townships, while Erlangmiao, Yanglou and Xiaoshidian townships in the county were randomly selected as the control townships. The grassroots medical professionals in the study townships were given once training onA total of 663 medical professionals were investigated in Fangcheng County from 2016 to 2020, including 474 participants in the intervention group and 189 participants in the control group. Results from the 2016 baseline survey showed that the awareness rate ofIn the low-prevalence areas of

Published
2022

125. [Effectiveness of health education interventions targeting taeniasis and cysticercosis among primary school students in disease-elimination pilot areas of Henan Province]

Author

Y, Deng, T T, Jiang, P H, Ji, W Q, Chen, Y L, Zhang, Y, Hong, R M, Zhou, C Y, Yang, Y B, Hu, X M, Lin, and D Y, Zhao

Subjects
Male, Schools, Cysticercosis, Swine, Animals, Humans, Female, Students, Health Education, Taeniasis
Abstract

To compare the changes of knowledge, attitude and practice (KAP) related to taeniasis and cysticercosis among primary school students before and after health education interventions in disease-elimination pilot areas of Henan Province, so as to evaluate the effectiveness of health education interventions.A primary school was selected from each of Dushu, Bowang and Yangji townships, Fangcheng County, Henan Province from 2017 to 2019; then, 2 to 3 classes were randomly selected from grade 4 to 6 in each primary school, and finally, all students in these classes were enrolled as study subjects. A thematic health education lecture pertaining to taeniasis and cysticercosis was given once each year by means of "health education in class". The KAP towards taeniasis and cysticercosis was investigated among primary school students using selffilled structured questionnaires, and the changes of awareness of taeniasis and cysticercosis control knowledge and percentage of healthy behaviors formation were compared in primary school students among years and following various frequencies of health education interventions.More than 10 thousand person-time primary school students received health education interventions during the period from 2017 to 2019, and a total of 1 223 person-time primary school students were investigated during the 3-year study period, including 633 person-time men and 590 person-time women and 88.55% of primary school students at ages of 10 to 12 years. The proportion of households raising pigs and using dry toiliets decreased from 5.30% (24/453) and 18.10% (82/453) in 2017 to 3.60% (13/361) and 11.08% (40/361) in 2019, respectively. The awareness rate of taeniasis and cysticercosis control knowledge increased significantly from 0.22% (1/453) in 2017 to 62.59% (256/409) in 2018 and 76.73% (277/361) in 2019 (χThe thematic health education activity of "health education in class" contributes greatly to the increase in the awareness of taeniasis and cysticercosis control knowledge and the rate of healthy behaviors formation among primary school students in diseaseelimination pilot areas of Henan Province.

Published
2022

126. Excited-state band structure mapping

Author

M. Puppin, C. W. Nicholson, C. Monney, Y. Deng, R. P. Xian, J. Feldl, S. Dong, A. Dominguez, H. Hübener, A. Rubio, M. Wolf, L. Rettig, R. Ernstorfer, European Commission, Max Planck Society, German Research Foundation, European Research Council, and Swiss National Science Foundation

Subjects
optical properties, quasi-particle, Condensed Matter - Materials Science, electronic-structure, transition metal dichalcogenides, layer, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, gap, dynamics, semiconductors, electronic structure, optical-properties, quasi particle, transition-metal dichalcogenides, wse2, photoemission
Abstract

Angle-resolved photoelectron spectroscopy is an extremely powerful probe of materials to access the occupied electronic structure with energy and momentum resolution. However, it remains blind to those dynamic states above the Fermi level that determine technologically relevant transport properties. In this work we extend band structure mapping into the unoccupied states and across the entire Brillouin zone by using a state-of-the-art high repetition rate, extreme ultraviolet femtosecond light source to probe optically excited samples. The wide-ranging applicability and power of this approach are demonstrated by measurements on the two-dimensional semiconductor WSe2, where the energy-momentum dispersion of valence and conduction bands are observed in a single experiment. This provides a direct momentum-resolved view, not only on the complete out-of-equilibrium band gap but also on its renormalization induced by electronic screening. Our work establishes a benchmark for measuring the band structure of materials, with direct access to the energy-momentum dispersion of the excited-state spectral function., This work was funded by the Max-Planck-Gesellschaft, by the German Research Foundation (DFG), with in the Emmy Noether Program (GrantNo.RE3977/1), and Grants No.FOR1700(ProjectE5), No.SPP2244(ProjectNo. 443366970), and from the European Research Council, Grant No. ERC-2015-CoG-682843. M.P. acknowledges financial support from the Swiss National Science Foundation (SNSF) through Grant No. CRSK-2_196756. C.W.N. and C.M. acknowledge financial support by Swiss National Science Foundation (SNSF) Grant No. P00P2_170597. A.R. and H.H. acknowledge financial support from the European Research Council (Grant No. ERC-2015-AdG-694097) and the Cluster of Excellence “CUI: Advanced Imaging of Matter” of the Deutsche Forschungsgemeinschaft (Grant EXC 2056, Project No. 390715994).

Published
2022

129. Amplitude analysis and branching fraction measurement of the decay <math> <msubsup> <mi>D</mi> <mi>s</mi> <mo>+</mo> </msubsup> </math> $$ {D}_s^{+} $$ → π + π 0 π 0

Author

The BESIII collaboration, M. Ablikim, M. N. Achasov, P. Adlarson, S. Ahmed, M. Albrecht, R. Aliberti, A. Amoroso, M. R. An, Q. An, X. H. Bai, Y. Bai, O. Bakina, R. Baldini Ferroli, I. Balossino, Y. Ban, K. Begzsuren, N. Berger, M. Bertani, D. Bettoni, F. Bianchi, J. Bloms, A. Bortone, I. Boyko, R. A. Briere, H. Cai, X. Cai, A. Calcaterra, G. F. Cao, N. Cao, S. A. Cetin, J. F. Chang, W. L. Chang, G. Chelkov, D. Y. Chen, G. Chen, H. S. Chen, M. L. Chen, S. J. Chen, X. R. Chen, Y. B. Chen, Z. J Chen, W. S. Cheng, G. Cibinetto, F. Cossio, X. F. Cui, H. L. Dai, X. C. Dai, A. Dbeyssi, R. E. de Boer, D. Dedovich, Z. Y. Deng, A. Denig, I. Denysenko, M. Destefanis, F. De Mori, Y. Ding, C. Dong, J. Dong, L. Y. Dong, M. Y. Dong, X. Dong, S. X. Du, Y. L. Fan, J. Fang, S. S. Fang, Y. Fang, R. Farinelli, L. Fava, F. Feldbauer, G. Felici, C. Q. Feng, J. H. Feng, M. Fritsch, C. D. Fu, Y. Gao, Y. G. Gao, I. Garzia, P. T. Ge, C. Geng, E. M. Gersabeck, A Gilman, K. Goetzen, L. Gong, W. X. Gong, W. Gradl, M. Greco, L. M. Gu, M. H. Gu, C. Y Guan, A. Q. Guo, L. B. Guo, R. P. Guo, Y. P. Guo, A. Guskov, T. T. Han, W. Y. Han, X. Q. Hao, F. A. Harris, K. L. He, F. H. Heinsius, C. H. Heinz, T. Held, Y. K. Heng, C. Herold, M. Himmelreich, T. Holtmann, G. Y. Hou, Y. R. Hou, Z. L. Hou, H. M. Hu, J. F. Hu, T. Hu, Y. Hu, G. S. Huang, L. Q. Huang, X. T. Huang, Y. P. Huang, Z. Huang, T. Hussain, N Hüsken, W. Ikegami Andersson, W. Imoehl, M. Irshad, S. Jaeger, S. Janchiv, Q. Ji, Q. P. Ji, X. B. Ji, X. L. Ji, Y. Y. Ji, H. B. Jiang, X. S. Jiang, J. B. Jiao, Z. Jiao, S. Jin, Y. Jin, M. Q. Jing, T. Johansson, N. Kalantar-Nayestanaki, X. S. Kang, R. Kappert, M. Kavatsyuk, B. C. Ke, I. K. Keshk, A. Khoukaz, P. Kiese, R. Kiuchi, R. Kliemt, L. Koch, O. B. Kolcu, B. Kopf, M. Kuemmel, M. Kuessner, A. Kupsc, M. G. Kurth, W. Kühn, J. J. Lane, J. S. Lange, P. Larin, A. Lavania, L. Lavezzi, Z. H. Lei, H. Leithoff, M. Lellmann, T. Lenz, C. Li, C. H. Li, Cheng Li, D. M. Li, F. Li, G. Li, H. Li, H. B. Li, H. J. Li, J. L. Li, J. Q. Li, J. S. Li, Ke Li, L. K. Li, Lei Li, P. R. Li, S. Y. Li, W. D. Li, W. G. Li, X. H. Li, X. L. Li, Xiaoyu Li, Z. Y. Li, H. Liang, Y. F. Liang, Y. T. Liang, G. R. Liao, L. Z. Liao, J. Libby, C. X. Lin, T. Lin, B. J. Liu, C. X. Liu, D. Liu, F. H. Liu, Fang Liu, Feng Liu, H. M. Liu, Huanhuan Liu, Huihui Liu, J. B. Liu, J. L. Liu, J. Y. Liu, K. Liu, K. Y. Liu, L. Liu, M. H. Liu, P. L. Liu, Q. Liu, S. B. Liu, Shuai Liu, T. Liu, W. M. Liu, X. Liu, Y. Liu, Y. B. Liu, Z. A. Liu, Z. Q. Liu, X. C. Lou, F. X. Lu, H. J. Lu, J. D. Lu, J. G. Lu, X. L. Lu, Y. Lu, Y. P. Lu, C. L. Luo, M. X. Luo, P. W. Luo, T. Luo, X. L. Luo, X. R. Lyu, F. C. Ma, H. L. Ma, L. L. Ma, M. M. Ma, Q. M. Ma, R. Q. Ma, R. T. Ma, X. X. Ma, X. Y. Ma, F. E. Maas, M. Maggiora, S. Maldaner, S. Malde, Q. A. Malik, A. Mangoni, Y. J. Mao, Z. P. Mao, S. Marcello, Z. X. Meng, J. G. Messchendorp, G. Mezzadri, T. J. Min, R. E. Mitchell, X. H. Mo, N. Yu. Muchnoi, H. Muramatsu, S. Nakhoul, Y. Nefedov, F. Nerling, I. B. Nikolaev, Z. Ning, S. Nisar, Q. Ouyang, S. Pacetti, X. Pan, Y. Pan, A. Pathak, P. Patteri, M. Pelizaeus, H. P. Peng, K. Peters, J. Pettersson, J. L. Ping, R. G. Ping, S. Pogodin, R. Poling, V. Prasad, H. Qi, H. R. Qi, K. H. Qi, M. Qi, T. Y. Qi, S. Qian, W. B. Qian, Z. Qian, C. F. Qiao, L. Q. Qin, X. P. Qin, X. S. Qin, Z. H. Qin, J. F. Qiu, S. Q. Qu, K. H. Rashid, K. Ravindran, C. F. Redmer, A. Rivetti, V. Rodin, M. Rolo, G. Rong, Ch. Rosner, M. Rump, H. S. Sang, A. Sarantsev, Y. Schelhaas, C. Schnier, K. Schoenning, M. Scodeggio, D. C. Shan, W. Shan, X. Y. Shan, J. F. Shangguan, M. Shao, C. P. Shen, H. F. Shen, P. X. Shen, X. Y. Shen, H. C. Shi, R. S. Shi, X. Shi, X. D Shi, J. J. Song, W. M. Song, Y. X. Song, S. Sosio, S. Spataro, K. X. Su, P. P. Su, F. F. Sui, G. X. Sun, H. K. Sun, J. F. Sun, L. Sun, S. S. Sun, T. Sun, W. Y. Sun, X Sun, Y. J. Sun, Y. Z. Sun, Z. T. Sun, Y. H. Tan, Y. X. Tan, C. J. Tang, G. Y. Tang, J. Tang, J. X. Teng, V. Thoren, W. H. Tian, Y. T. Tian, I. Uman, B. Wang, C. W. Wang, D. Y. Wang, H. J. Wang, H. P. Wang, K. Wang, L. L. Wang, M. Wang, M. Z. Wang, Meng Wang, S. Wang, W. Wang, W. H. Wang, W. P. Wang, X. Wang, X. F. Wang, X. L. Wang, Y. Wang, Y. D. Wang, Y. F. Wang, Y. Q. Wang, Y. Y. Wang, Z. Wang, Z. Y. Wang, Ziyi Wang, Zongyuan Wang, D. H. Wei, F. Weidner, S. P. Wen, D. J. White, U. Wiedner, G. Wilkinson, M. Wolke, L. Wollenberg, J. F. Wu, L. H. Wu, L. J. Wu, X. Wu, Z. Wu, L. Xia, H. Xiao, S. Y. Xiao, Z. J. Xiao, X. H. Xie, Y. G. Xie, Y. H. Xie, T. Y. Xing, G. F. Xu, Q. J. Xu, W. Xu, X. P. Xu, Y. C. Xu, F. Yan, L. Yan, W. B. Yan, W. C. Yan, Xu Yan, H. J. Yang, H. X. Yang, L. Yang, S. L. Yang, Y. X. Yang, Yifan Yang, Zhi Yang, M. Ye, M. H. Ye, J. H. Yin, Z. Y. You, B. X. Yu, C. X. Yu, G. Yu, J. S. Yu, T. Yu, C. Z. Yuan, L. Yuan, X. Q. Yuan, Y. Yuan, Z. Y. Yuan, C. X. Yue, A. A. Zafar, X. Zeng Zeng, Y. Zeng, A. Q. Zhang, B. X. Zhang, Guangyi Zhang, H. Zhang, H. H. Zhang, H. Y. Zhang, J. J. Zhang, J. L. Zhang, J. Q. Zhang, J. W. Zhang, J. Y. Zhang, J. Z. Zhang, Jianyu Zhang, Jiawei Zhang, L. M. Zhang, L. Q. Zhang, Lei Zhang, S. Zhang, S. F. Zhang, Shulei Zhang, X. D. Zhang, X. Y. Zhang, Y. Zhang, Y. T. Zhang, Y. H. Zhang, Yan Zhang, Yao Zhang, Z. Y. Zhang, G. Zhao, J. Zhao, J. Y. Zhao, J. Z. Zhao, Lei Zhao, Ling Zhao, M. G. Zhao, Q. Zhao, S. J. Zhao, Y. B. Zhao, Y. X. Zhao, Z. G. Zhao, A. Zhemchugov, B. Zheng, J. P. Zheng, Y. H. Zheng, B. Zhong, C. Zhong, L. P. Zhou, Q. Zhou, X. Zhou, X. K. Zhou, X. R. Zhou, X. Y. Zhou, A. N. Zhu, J. Zhu, K. Zhu, K. J. Zhu, S. H. Zhu, T. J. Zhu, W. J. Zhu, Y. C. Zhu, Z. A. Zhu, B. S. Zou, J. H. Zou, Energy and Sustainability Research Institute Groni, Nuclear Energy, İstinye Üniversitesi, Kolcu, Onur Bugra, and P-4990-2015

Subjects
Subatomär fysik, Nuclear and High Energy Physics, e(+)-e(-) Experiments, e-e Experiments, Nuclear and particle physics. Atomic energy. Radioactivity, Subatomic Physics, Branching fraction, e +-e − Experiments, QC770-798, High Energy Physics - Experiment, Charm physics
Abstract

Using a data set corresponding to an integrated luminosity of 6.32 fb−1 recorded by the BESIII detector at center-of-mass energies between 4.178 and 4.226 GeV, an amplitude analysis of the decay $$ {D}_s^{+} $$ D s + → π+π0π0 is performed, and the relative fractions and phases of different intermediate processes are determined. The absolute branching fraction of the decay $$ {D}_s^{+} $$ D s + → π+π0π0 is measured to be (0.50 ± 0.04stat ± 0.02syst)%. The absolute branching fraction of the intermediate process $$ {D}_s^{+} $$ D s + → f0(980)π+, f0(980) → π0π0 is determined to be (0.28 ± 0.04stat ± 0.04syst)%.

Published
2022

135. The Awareness and Knowledge Regarding Sarcopenia among Healthcare Professionals: A Scoping Review

Author

X M, Yao, B B, Liu, W Y, Deng, and X H, Wang

Subjects
Sarcopenia, Health Personnel, Humans, General Medicine, Delivery of Health Care, Brazil, Qualitative Research, Aged
Abstract

Sarcopenia is a prevalent and costly disease associated with serious negative health outcomes, and its prevalence will further grow as the percentage of elderly rises. Healthcare professionals play a crucial role in the prevention, identification and management of sarcopenia and in promoting the well-being of elders. Awareness and knowledge are the prerequisite and basis for these actions.The objective of the review was to summarize available publications to identify the healthcare professionals' awareness and knowledge about sarcopenia, and to identify knowledge gaps that interventions could address.The scoping review will be performed based on the Scoping Review guidelines published by JBI in Australia.Six electronic databases, including PubMed, Embase, CINAHL, Web of Science, Cochrane Library and CNKI were searched systematically. Two researchers independently screened the retrieved articles and extracted the information.A total of 6 studies were identified, including 5 quantitative studies and 1 qualitative study. These studies mainly were conducted in Australia, Netherlands and Brazil, and none from Asia. The awareness and knowledge of healthcare professionals about sarcopenia varied in different studies. With exception of one study conducted in oncology clinicians, other studies suggested that awareness and knowledge among healthcare professionals was incomplete and limited.The relatively few studies indicated that healthcare professionals had low awareness and limited knowledge of sarcopenia, which could influence and hinder the diagnosis and treatment of sarcopenia in practice. Future researches should develop a rigorously tested and valid sarcopenia knowledge assessment tool and researches conducted in larger samples are needed.

Published
2022
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137. The Solar Activity Monitor Network – SAMNet

Author

Francesco Zuccarello, X. Cheng, Piyali Chatterjee, F. Li, David Kuridze, J.R.T. McAteer, D. Pizzey, B. Belucz, Roman Brajša, Paolo Romano, M. Dyer, R. Joya, Teimuraz V. Zaqarashvili, Dominik Utz, X. Huang, Alexei A. Pevtsov, I. Hughes, C. Triana, Y. Yang, Yuming Wang, N. Gyenge, J. Temesvary, X. Long, S. Varga Dominguez, Michail Mathioudakis, M. Brigitta Korsos, Robert Erdélyi, A. G Tlatov, Y. Deng, Astrid Veronig, A. Kucera, S. A Wrathmall, Sarah A. Matthews, W. Pötzi, J. Shen, V. S Dhillon, Yihua Yan, Arnold Hanslmeier, P. Gömöry, Z. Liu, Ministerio de Ciencia e Innovación (España), European Commission, National Natural Science Foundation of China, and Austrian Science Fund

Subjects
Atmospheric Science, sun-flares-precursors, Sun-flares-precursors, Space weather, law.invention, law, Meteorology. Climatology, Astrophysics::Solar and Stellar Astrophysics, Emission spectrum, Image resolution, Chromosphere, Remote sensing, Photosphere, Flares, Sun, Precursors, Spectral bands, Solar telescope, Space and Planetary Science, Physics::Space Physics, Environmental science, Astrophysics::Earth and Planetary Astrophysics, QC851-999, Flare
Abstract

Full list of authors: Erdélyi, Robertus; Korsós, Marianna B.; Huang, Xin; Yang, Yong; Pizzey, Danielle; Wrathmall, Steven A.; Hughes, Ifan G.; Dyer, Martin J.; Dhillon, Vikram S.; Belucz, Bernadett; Brajša, Roman; Chatterjee, Piyali; Cheng, Xuewu; Deng, Yuanyong; Domínguez, Santiago Vargas; Joya, Raúl; Gömöry, Peter; Gyenge, Norbert G.; Hanslmeier, Arnold; Kucera, Ales; Kuridze, David; Li, Faquan; Liu, Zhong; Xu, Long; Mathioudakis, Mihalis; Matthews, Sarah; McAteer, James R. T.; Pevtsov, Alexei A.; Pötzi, Werner; Romano, Paolo; Shen, Jinhua; Temesváry, János; Tlatov, Andrey G.; Triana, Charles; Utz, Dominik; Veronig, Astrid M.; Wang, Yuming; Yan, Yihua; Zaqarashvili, Teimuraz; Zuccarello, Francesca.--This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited., The Solar Activity Magnetic Monitor (SAMM) Network (SAMNet) is a future UK-led international network of ground-based solar telescope stations. SAMNet, at its full capacity, will continuously monitor the Sun’s intensity, magnetic, and Doppler velocity fields at multiple heights in the solar atmosphere (from photosphere to upper chromosphere). Each SAMM sentinel will be equipped with a cluster of identical telescopes each with a different magneto-optical filter (MOFs) to take observations in K I, Na D, and Ca I spectral bands. A subset of SAMM stations will have white-light coronagraphs and emission line coronal spectropolarimeters. The objectives of SAMNet are to provide observational data for space weather research and forecast. The goal is to achieve an operationally sufficient lead time of e.g., flare warning of 2–8 h and provide many sought-after continuous synoptic maps (e.g., LoS magnetic and velocity fields, intensity) of the lower solar atmosphere with a spatial resolution limited only by seeing or diffraction limit, and with a cadence of 10 min. The individual SAMM sentinels will be connected to their master HQ hub where data received from all the slave stations will be automatically processed and flare warning issued up to 26 h in advance. © R. Erdélyi et al., Published by EDP Sciences 2022., RE is grateful to the Science and Technology Facilities Council (STFC, grant numbers ST/M000826/1 and ST/V005979/1) the UK and the Royal Society for enabling this research. RE also acknowledges the CAS Presidents International Fellowship Initiative, Grant No. 2019VMA052 and the TOP CLLD 7.1.1-16-H-ERFA-2019-00207-Magyar Napfizikai Alaptvány ID Nr 1-8-2019/P support.MBK acknowledges STFC grant ST/S000518/1 to Aberystwyth University. MBK also acknowledges the open research program of CAS Key Laboratory of Solar Activity, National Astronomical Observatories, No. KLSA201610. RE and MBK both acknowledge the CAS Key Laboratory of Solar Activity, National Astronomical Observatories Commission for Collaborating Research Program for the support received to carry out part of this work. IGH and DP acknowledge support from EPSRC (grant EP/R002061/1). RB acknowledges the support by the Croatian Science Foundation under project 7549 “Millimeter and submillimeter observations of the solar chromosphere with ALMA”. RB, AH, and AMV acknowledge the support from the Austrian-Croatian Bilateral Scientific Project “Comparison of ALMA observations with MHD-simulations of coronal waves interacting with coronal holes”. AK and PG acknowledge the support from grant VEGA 2/0048/20. AAP acknowledges NASA 80NSSC18K1242 grant and grant No. 19-02-00088 by RFBR. Sunspot Solar Observatory is a partnership between NSF (1945705), the National Solar Observatory, the state of New Mexico, and consortium partners. TZ acknowledges funding from the Austrian Science Fund (FWF, project P30695-N27). FZ acknowledges support by the Università degli Studi di Catania (Piano per la Ricerca Università di Catania 2016–2018 – Linea di intervento 1 “Chance”; Linea di intervento 2 “Dotazione ordinaria”; Fondi di Ateneo 2020–2022, Università di Catania, Linea Open Access), by the Italian MIUR-PRIN grant 2017APKP7T on “Circumterrestrial Environment: Impact of Sun-Earth Interaction”. YH acknowledges funding from NSFC (11790300,11790301). DK has received funding from the Sêr Cymru II scheme, part-funded by the European Regional Development Fund through the Welsh Government. © R. Erdélyi et al., Published by EDP Sciences 2022., With funding from the Spanish government through the Severo Ochoa Centre of Excellence accreditation SEV-2017-0709.

Published
2022
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138. Observation of an a_{0}-like State with Mass of 1.817 GeV in the Study of D_{s}^{+}→K_{S}^{0}K^{+}π^{0} Decays

Author

M, Ablikim, M N, Achasov, P, Adlarson, M, Albrecht, R, Aliberti, A, Amoroso, M R, An, Q, An, X H, Bai, Y, Bai, O, Bakina, R Baldini, Ferroli, I, Balossino, Y, Ban, V, Batozskaya, D, Becker, K, Begzsuren, N, Berger, M, Bertani, D, Bettoni, F, Bianchi, J, Bloms, A, Bortone, I, Boyko, R A, Briere, A, Brueggemann, H, Cai, X, Cai, A, Calcaterra, G F, Cao, N, Cao, S A, Cetin, J F, Chang, W L, Chang, G, Chelkov, C, Chen, G, Chen, H S, Chen, M L, Chen, S J, Chen, T, Chen, X R, Chen, X T, Chen, Y B, Chen, Z J, Chen, W S, Cheng, G, Cibinetto, F, Cossio, J J, Cui, H L, Dai, J P, Dai, A, Dbeyssi, R E, de Boer, D, Dedovich, Z Y, Deng, A, Denig, I, Denysenko, M, Destefanis, F, De Mori, Y, Ding, J, Dong, L Y, Dong, M Y, Dong, X, Dong, S X, Du, P, Egorov, Y L, Fan, J, Fang, S S, Fang, Y, Fang, R, Farinelli, L, Fava, F, Feldbauer, G, Felici, C Q, Feng, J H, Feng, K, Fischer, M, Fritsch, C, Fritzsch, C D, Fu, H, Gao, Y N, Gao, Yang, Gao, S, Garbolino, I, Garzia, P T, Ge, Z W, Ge, C, Geng, E M, Gersabeck, A, Gilman, L, Gong, W X, Gong, W, Gradl, M, Greco, L M, Gu, M H, Gu, Y T, Gu, C Y, Guan, A Q, Guo, L B, Guo, R P, Guo, Y P, Guo, A, Guskov, T T, Han, W Y, Han, X Q, Hao, F A, Harris, K K, He, K L, He, F H, Heinsius, C H, Heinz, Y K, Heng, C, Herold, T, Holtmann, G Y, Hou, Y R, Hou, Z L, Hou, H M, Hu, J F, Hu, T, Hu, Y, Hu, G S, Huang, K X, Huang, L Q, Huang, X T, Huang, Y P, Huang, Z, Huang, T, Hussain, N, Hüsken, W, Imoehl, M, Irshad, J, Jackson, S, Jaeger, S, Janchiv, Q, Ji, Q P, Ji, X B, Ji, X L, Ji, Y Y, Ji, Z K, Jia, H B, Jiang, S S, Jiang, X S, Jiang, Y, Jiang, J B, Jiao, Z, Jiao, S, Jin, Y, Jin, M Q, Jing, T, Johansson, N, Kalantar-Nayestanaki, X S, Kang, R, Kappert, M, Kavatsyuk, B C, Ke, I K, Keshk, A, Khoukaz, P, Kiese, R, Kiuchi, L, Koch, O B, Kolcu, B, Kopf, M, Kuemmel, M, Kuessner, A, Kupsc, W, Kühn, J J, Lane, J S, Lange, P, Larin, A, Lavania, L, Lavezzi, Z H, Lei, H, Leithoff, M, Lellmann, T, Lenz, C, Li, C H, Li, Cheng, Li, D M, Li, F, Li, G, Li, H, Li, H B, Li, H J, Li, H N, Li, J Q, Li, J S, Li, J W, Li, Ke, Li, L J, Li, L K, Li, Lei, Li, M H, Li, P R, Li, S X, Li, S Y, Li, T, Li, W D, Li, W G, Li, X H, Li, X L, Li, Xiaoyu, Li, H, Liang, Y F, Liang, Y T, Liang, G R, Liao, L Z, Liao, J, Libby, A, Limphirat, C X, Lin, D X, Lin, T, Lin, B J, Liu, C X, Liu, D, Liu, F H, Liu, Fang, Liu, Feng, Liu, G M, Liu, H, Liu, H B, Liu, H M, Liu, Huanhuan, Liu, Huihui, Liu, J B, Liu, J L, Liu, J Y, Liu, K, Liu, K Y, Liu, Ke, Liu, L, Liu, M H, Liu, P L, Liu, Q, Liu, S B, Liu, T, Liu, W K, Liu, W M, Liu, X, Liu, Y, Liu, Y B, Liu, Z A, Liu, Z Q, Liu, X C, Lou, F X, Lu, H J, Lu, J G, Lu, X L, Lu, Y, Lu, Y P, Lu, Z H, Lu, C L, Luo, M X, Luo, T, Luo, X L, Luo, X R, Lyu, Y F, Lyu, F C, Ma, H L, Ma, L L, Ma, M M, Ma, Q M, Ma, R Q, Ma, R T, Ma, X Y, Ma, Y, Ma, F E, Maas, M, Maggiora, S, Maldaner, S, Malde, Q A, Malik, A, Mangoni, Y J, Mao, Z P, Mao, S, Marcello, Z X, Meng, J G, Messchendorp, G, Mezzadri, H, Miao, T J, Min, R E, Mitchell, X H, Mo, N Yu, Muchnoi, H, Muramatsu, Y, Nefedov, F, Nerling, I B, Nikolaev, Z, Ning, S, Nisar, Y, Niu, S L, Olsen, Q, Ouyang, S, Pacetti, X, Pan, Y, Pan, A, Pathak, M, Pelizaeus, H P, Peng, J, Pettersson, J L, Ping, R G, Ping, S, Plura, S, Pogodin, R, Poling, V, Prasad, H, Qi, H R, Qi, M, Qi, T Y, Qi, S, Qian, W B, Qian, Z, Qian, C F, Qiao, J J, Qin, L Q, Qin, X P, Qin, X S, Qin, Z H, Qin, J F, Qiu, S Q, Qu, K H, Rashid, C F, Redmer, K J, Ren, A, Rivetti, V, Rodin, M, Rolo, G, Rong, Ch, Rosner, S N, Ruan, H S, Sang, A, Sarantsev, Y, Schelhaas, C, Schnier, K, Schoenning, M, Scodeggio, K Y, Shan, W, Shan, X Y, Shan, J F, Shangguan, L G, Shao, M, Shao, C P, Shen, H F, Shen, X Y, Shen, B-A, Shi, H C, Shi, R S, Shi, X, Shi, X D, Shi, J J, Song, W M, Song, Y X, Song, S, Sosio, S, Spataro, F, Stieler, K X, Su, P P, Su, Y-J, Su, G X, Sun, H, Sun, H K, Sun, J F, Sun, L, Sun, S S, Sun, T, Sun, W Y, Sun, X, Sun, Y J, Sun, Y Z, Sun, Z T, Sun, Y H, Tan, Y X, Tan, C J, Tang, G Y, Tang, J, Tang, L Y, Tao, Q T, Tao, J X, Teng, V, Thoren, W H, Tian, Y, Tian, I, Uman, B, Wang, B L, Wang, C W, Wang, D Y, Wang, F, Wang, H J, Wang, H P, Wang, K, Wang, L L, Wang, M, Wang, M Z, Wang, Meng, Wang, S, Wang, T, Wang, T J, Wang, W, Wang, W H, Wang, W P, Wang, X, Wang, X F, Wang, X L, Wang, Y D, Wang, Y F, Wang, Y H, Wang, Y Q, Wang, Z, Wang, Z Y, Wang, Ziyi, Wang, D H, Wei, F, Weidner, S P, Wen, D J, White, U, Wiedner, G, Wilkinson, M, Wolke, L, Wollenberg, J F, Wu, L H, Wu, L J, Wu, X, Wu, X H, Wu, Y, Wu, Z, Wu, L, Xia, T, Xiang, D, Xiao, G Y, Xiao, H, Xiao, S Y, Xiao, Y L, Xiao, Z J, Xiao, C, Xie, X H, Xie, Y, Xie, Y G, Xie, Y H, Xie, Z P, Xie, T Y, Xing, C F, Xu, C J, Xu, G F, Xu, H Y, Xu, Q J, Xu, S Y, Xu, X P, Xu, Y C, Xu, Z P, Xu, F, Yan, L, Yan, W B, Yan, W C, Yan, H J, Yang, H L, Yang, H X, Yang, L, Yang, S L, Yang, Y X, Yang, Yifan, Yang, M, Ye, M H, Ye, J H, Yin, Z Y, You, B X, Yu, C X, Yu, G, Yu, T, Yu, C Z, Yuan, L, Yuan, S C, Yuan, X Q, Yuan, Y, Yuan, Z Y, Yuan, C X, Yue, A A, Zafar, F R, Zeng, X, Zeng, Y, Zeng, Y H, Zhan, A Q, Zhang, B L, Zhang, B X, Zhang, G Y, Zhang, H, Zhang, H H, Zhang, H Y, Zhang, J L, Zhang, J Q, Zhang, J W, Zhang, J X, Zhang, J Y, Zhang, J Z, Zhang, Jianyu, Zhang, Jiawei, Zhang, L M, Zhang, L Q, Zhang, Lei, Zhang, P, Zhang, Q Y, Zhang, Shulei, Zhang, X D, Zhang, X M, Zhang, X Y, Zhang, Y, Zhang, Y T, Zhang, Y H, Zhang, Yan, Zhang, Yao, Zhang, Z H, Zhang, Z Y, Zhang, G, Zhao, J, Zhao, J Y, Zhao, J Z, Zhao, Lei, Zhao, Ling, Zhao, M G, Zhao, Q, Zhao, S J, Zhao, Y B, Zhao, Y X, Zhao, Z G, Zhao, A, Zhemchugov, B, Zheng, J P, Zheng, Y H, Zheng, B, Zhong, C, Zhong, X, Zhong, H, Zhou, L P, Zhou, X, Zhou, X K, Zhou, X R, Zhou, X Y, Zhou, Y Z, Zhou, J, Zhu, K, Zhu, K J, Zhu, L X, Zhu, S H, Zhu, S Q, Zhu, T J, Zhu, W J, Zhu, Y C, Zhu, Z A, Zhu, B S, Zou, and J H, Zou

Abstract

Using e^{+}e^{-} annihilation data corresponding to an integrated luminosity of 6.32 fb^{-1} collected at center-of-mass energies between 4.178 and 4.226 GeV with the BESIII detector, we perform the first amplitude analysis of the decay D_{s}^{+}→K_{S}^{0}K^{+}π^{0} and determine the relative branching fractions and phases for intermediate processes. We observe an a_{0}-like state with mass of 1.817 GeV in its decay to K_{S}^{0}K^{+} for the first time. In addition, we measure the ratio {B[D_{s}^{+}→K[over ¯]^{*}(892)^{0}K^{+}]/B[D_{s}^{+}→K[over ¯]^{0}K^{*}(892)^{+}]} to be 2.35_{-0.23stat}^{+0.42}±0.10_{syst}. Finally, we provide a precision measurement of the absolute branching fraction B(D_{s}^{+}→K_{S}^{0}K^{+}π^{0})=(1.46±0.06_{stat}±0.05_{syst})%.

Published
2022

142. Mapping pediatric brain tumors to their origins in the developing cerebellum

Author

Konstantin Okonechnikov, Piyush Joshi, Mari Sepp, Kevin Leiss, Ioannis Sarropoulos, Florent Murat, Martin Sill, Pengbo Beck, Kenneth Chun-Ho Chan, Andrey Korshunov, Felix Sahm, Maximilian Y. Deng, Dominik Sturm, John DeSisto, Andrew M. Donson, Nicholas K. Foreman, Adam L. Green, Giles Robinson, Brent A. Orr, Qingsong Gao, Emily Darrow, Jennifer L. Hadley, Paul A. Northcott, Johannes Gojo, Marina Ryzhova, Daisuke Kawauchi, Volker Hovestadt, Mariella G. Filbin, Andreas von Deimling, Marc Zuckermann, Kristian W. Pajtler, Marcel Kool, David T.W. Jones, Natalie Jäger, Lena M. Kutscher, Henrik Kaessmann, Stefan M. Pfister, Hopp Children's Cancer Center Heidelberg [Heidelber, Germany] (KITZ), German Cancer Research Center - Deutsches Krebsforschungszentrum [Heidelberg] (DKFZ)-Heidelberg University Hospital [Heidelberg], German Cancer Research Center - Deutsches Krebsforschungszentrum [Heidelberg] (DKFZ), German Cancer Consortium [Heidelberg] (DKTK), Center for Molecular Biology - Zentrum für Molekulare Biologie [Heidelberg, Germany] (ZMBH), Universität Heidelberg [Heidelberg], Heidelberg University Hospital [Heidelberg], University of Colorado School of Medicine, Children’s Hospital Colorado, University of Colorado Anschutz [Aurora], St Jude Children's Research Hospital, Medizinische Universität Wien = Medical University of Vienna, NN Burdenko Neurosurgical Institute (NNBNI), National Institute of Neuroscience (NCNP), Dana-Farber Cancer Institute [Boston], Broad Institute of MIT and Harvard (BROAD INSTITUTE), Harvard Medical School [Boston] (HMS)-Massachusetts Institute of Technology (MIT)-Massachusetts General Hospital [Boston], and Princess Máxima Center for Pediatric Oncology [Utrecht, Pays-Bas]

Subjects
0303 health sciences, 03 medical and health sciences, 0302 clinical medicine, [SDV]Life Sciences [q-bio], 030217 neurology & neurosurgery, 030304 developmental biology
Abstract

Understanding the cellular origins of childhood brain tumors is key for discovering novel tumor-specific therapeutic targets. Previous strategies mapping cellular origins typically involved comparing human tumors to murine embryonal tissues1,2, a potentially imperfect approach due to spatio-temporal gene expression differences between species3. Here we use an unprecedented single-nucleus atlas of the developing human cerebellum (Sepp, Leiss, et al) and extensive bulk and single-cell transcriptome tumor data to map their cellular origins with focus on three most common pediatric brain tumors – pilocytic astrocytoma, ependymoma, and medulloblastoma. Using custom bioinformatics approaches, we postulate the astroglial and glial lineages as the origins for posterior fossa ependymomas and radiation-induced gliomas (secondary tumors after medulloblastoma treatment), respectively. Moreover, we confirm that SHH, Group3 and Group4 medulloblastomas stem from granule cell/unipolar brush cell lineages, whereas we propose pilocytic astrocytoma to originate from the oligodendrocyte lineage. We also identify genes shared between the cerebellar lineage of origin and corresponding tumors, and genes that are tumor specific; both gene sets represent promising therapeutic targets. As a common feature among most cerebellar tumors, we observed compositional heterogeneity in terms of similarity to normal cells, suggesting that tumors arise from or differentiate into multiple points along the cerebellar “lineage of origin”.

Published
2021
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143. A Study on Correcting the Effect of Polarization Crosstalk in Full-Disk Solar Photospheric Magnetic Fields Observations

Author

S. Liu, J. T. Su, X. Y. Bai, Y. Y. Deng, J. Chen, Y. L. Song, X. F Wang, H. Q Xu, and X. Yang

Subjects
Astrophysics - Solar and Stellar Astrophysics, Space and Planetary Science, FOS: Physical sciences, Astronomy and Astrophysics, Solar and Stellar Astrophysics (astro-ph.SR)
Abstract

Magnetography using magnetic sensitive lines is regarded traditionally as the main instrument for measuring the magnetic field of the whole Sun. Full polarized Stockes parameters ($I$, $Q$, $U$, $V$) observed can be used to deduce the magnetic field under specific theoretical model or inversion algorithms. Due to various reasons, there are often cross-talk effects among Stokes signals observed directly by magnetographs. Especially, the circular polarized signal $V$ usually affects the linear polarized ones $Q$ and $U$ seriously, which is one of the main errors of the value of the transverse magnetic field (parallel to the solar surface) that is related to $Q$ and $U$. The full-disk magnetograph onboard the Advanced Space based Solar Observatory (ASO-S/FMG) is designed to observe Stockes parameters to deduce the vector magnetic field. In this paper, the methods correcting the effects of cross-talk $V$ to $Q$ and $U$ are based on the assumption of perfectly symmetric Q and U and anti-symmetric Stokes V profiles and a new method to reduce the crosstalk effect under observation mode of FMG is developed. Through the test, it is found that the two methods have better effect in cross-talk removal in the sunspot region, and have better consistency. Addtionally, the developed methodcan be applied to remove the cross-talk effect using only one group of $Q$, $U$ and $V$ images observed at one wavelength position., 27 pages, 15 figures, accepted by SolPhys. 2021

Published
2021

144. MICRORNA ASSOCIATED WITH PERIPROSTHETIC OSTEOLOYSIS VIA JAK-STAT PATHWAY

Author

Y. Deng, D. Zhang, P. Smith, and R. Li

Abstract

Hip and knee arthroplasty (HKA) are two of the most successful orthopaedic procedures. However, one major complication necessitating revision surgery is osteolysis causing aseptic loosening of the prosthesis. JAK-STAT has been demonstrated to influence bone metabolism and can be regulated by microRNA (miRNA).Adult patients with osteolysis or aseptic loosening undergoing revision HKA were recruited. Age and gender matched patients undergoing primary hip or knee arthroplasty were our controls. Samples of bone, tissue and blood were collected and RNA isolation was performed. The best quality samples were used for RNA-sequencing. Data analysis was performed using RStudio and Galaxy to identify differentially expressed genes. Western blotting of IL6 was used to confirm protein expression.Five circulating miRNA were identified which had 10 differentially expressed genes in bone and 11 differentially expressed genes in tissue related to the JAK-STAT pathway. IL6 in bone and EpoR in bone were highly significant and IL6 in tissue, MPL in bone, SOCS3 in tissue, JAK3 in bone and SPRED1 in bone were borderline significant. Western blot results demonstrated up-expression of IL6 in bone tissue of revision patients.Periprosthetic osteolysis and aseptic loosening can be attributed to miRNA regulation of the JAK-STAT pathway in osteoblasts and osteoclasts, leading to increased bone resorption. These findings can be used for further experiments to determine utility in the clinical setting for identifying diagnostic markers or therapeutic targets.

Published
2023
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145. High-mobility electron gas in Sr2TiO4/SrTiO3 heterostructure engineered by vertical Ruddlesden–Popper faults

Author

T. T. Zhang, J. Y. Li, J. F. Yang, T. Y. Gao, H. Y. Sun, Z. B. Gu, Y. Deng, and Y. F. Nie

Subjects
Physics and Astronomy (miscellaneous)
Abstract

High-mobility electron gases in SrTiO3-based heterostructures have been mainly synthesized on single TiO2 terminated SrTiO3 substrates. Here, we show a high-mobility electron gas observed in a Sr2TiO4/SrTiO3 heterostructure based on an untreated SrTiO3 substrate with mixed termination, showing the mobility value up to 28 000 cm2 V−1 s−1 at 2 K. SrO–SrO vertical Ruddlesden–Popper faults in the Sr2TiO4 film provide escape channels for oxygen atoms under high temperatures, enabling the as-grown tuning of oxygen vacancies in the SrTiO3 layer during film deposition and reversible after-growth modulation in a thermal annealing process.

Published
2022
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149. Measurement of branching fractions of J/ψ and ψ(3686) decays to Σ+ and <math> <mover> <mi>Σ</mi> <mo>¯</mo> </mover> </math> $$ \overline{\Sigma} $$ −

Author

The BESIII collaboration, M. Ablikim, M. N. Achasov, P. Adlarson, S. Ahmed, M. Albrecht, R. Aliberti, A. Amoroso, M. R. An, Q. An, X. H. Bai, Y. Bai, O. Bakina, R. Baldini Ferroli, I. Balossino, Y. Ban, K. Begzsuren, N. Berger, M. Bertani, D. Bettoni, F. Bianchi, J. Bloms, A. Bortone, I. Boyko, R. A. Briere, H. Cai, X. Cai, A. Calcaterra, G. F. Cao, N. Cao, S. A. Cetin, J. F. Chang, W. L. Chang, G. Chelkov, G. Chen, H. S. Chen, M. L. Chen, S. J. Chen, X. R. Chen, Y. B. Chen, Z. J. Chen, W. S. Cheng, G. Cibinetto, F. Cossio, X. F. Cui, H. L. Dai, J. P. Dai, X. C. Dai, A. Dbeyssi, R. E. de Boer, D. Dedovich, Z. Y. Deng, A. Denig, I. Denysenko, M. Destefanis, F. De Mori, Y. Ding, C. Dong, J. Dong, L. Y. Dong, M. Y. Dong, X. Dong, S. X. Du, Y. L. Fan, J. Fang, S. S. Fang, Y. Fang, R. Farinelli, L. Fava, F. Feldbauer, G. Felici, C. Q. Feng, J. H. Feng, M. Fritsch, C. D. Fu, Y. Gao, I. Garzia, P. T. Ge, C. Geng, E. M. Gersabeck, A Gilman, K. Goetzen, L. Gong, W. X. Gong, W. Gradl, M. Greco, L. M. Gu, M. H. Gu, Y. T. Gu, C. Y Guan, A. Q. Guo, L. B. Guo, R. P. Guo, Y. P. Guo, A. Guskov, T. T. Han, W. Y. Han, X. Q. Hao, F. A. Harris, K. L. He, F. H. Heinsius, C. H. Heinz, Y. K. Heng, C. Herold, M. Himmelreich, T. Holtmann, G. Y. Hou, Y. R. Hou, Z. L. Hou, H. M. Hu, J. F. Hu, T. Hu, Y. Hu, G. S. Huang, L. Q. Huang, X. T. Huang, Y. P. Huang, Z. Huang, T. Hussain, N Hüsken, W. Ikegami Andersson, W. Imoehl, M. Irshad, S. Jaeger, S. Janchiv, Q. Ji, Q. P. Ji, X. B. Ji, X. L. Ji, Y. Y. Ji, H. B. Jiang, X. S. Jiang, J. B. Jiao, Z. Jiao, S. Jin, Y. Jin, M. Q. Jing, T. Johansson, N. Kalantar-Nayestanaki, X. S. Kang, R. Kappert, M. Kavatsyuk, B. C. Ke, I. K. Keshk, A. Khoukaz, P. Kiese, R. Kiuchi, R. Kliemt, L. Koch, O. B. Kolcu, B. Kopf, M. Kuemmel, M. Kuessner, A. Kupsc, M. G. Kurth, W. Kühn, J. J. Lane, J. S. Lange, P. Larin, A. Lavania, L. Lavezzi, Z. H. Lei, H. Leithoff, M. Lellmann, T. Lenz, C. Li, C. H. Li, Cheng Li, D. M. Li, F. Li, G. Li, H. Li, H. B. Li, H. J. Li, J. L. Li, J. Q. Li, J. S. Li, Ke Li, L. K. Li, Lei Li, P. R. Li, S. Y. Li, W. D. Li, W. G. Li, X. H. Li, X. L. Li, Xiaoyu Li, Z. Y. Li, H. Liang, Y. F. Liang, Y. T. Liang, G. R. Liao, L. Z. Liao, J. Libby, A. Limphirat, C. X. Lin, T. Lin, B. J. Liu, C. X. Liu, D. Liu, F. H. Liu, Fang Liu, Feng Liu, H. B. Liu, H. M. Liu, Huanhuan Liu, Huihui Liu, J. B. Liu, J. L. Liu, J. Y. Liu, K. Liu, K. Y. Liu, L. Liu, M. H. Liu, P. L. Liu, Q. Liu, S. B. Liu, Shuai Liu, T. Liu, W. M. Liu, X. Liu, Y. Liu, Y. B. Liu, Z. A. Liu, Z. Q. Liu, X. C. Lou, F. X. Lu, H. J. Lu, J. D. Lu, J. G. Lu, X. L. Lu, Y. Lu, Y. P. Lu, C. L. Luo, M. X. Luo, P. W. Luo, T. Luo, X. L. Luo, X. R. Lyu, F. C. Ma, H. L. Ma, L. L. Ma, M. M. Ma, Q. M. Ma, R. Q. Ma, R. T. Ma, X. X. Ma, X. Y. Ma, Y. Ma, F. E. Maas, M. Maggiora, S. Maldaner, S. Malde, Q. A. Malik, A. Mangoni, Y. J. Mao, Z. P. Mao, S. Marcello, Z. X. Meng, J. G. Messchendorp, G. Mezzadri, T. J. Min, R. E. Mitchell, X. H. Mo, N. Yu. Muchnoi, H. Muramatsu, S. Nakhoul, Y. Nefedov, F. Nerling, I. B. Nikolaev, Z. Ning, S. Nisar, S. L. Olsen, Q. Ouyang, S. Pacetti, X. Pan, Y. Pan, A. Pathak, P. Patteri, M. Pelizaeus, H. P. Peng, K. Peters, J. Pettersson, J. L. Ping, R. G. Ping, S. Pogodin, R. Poling, V. Prasad, H. Qi, H. R. Qi, K. H. Qi, M. Qi, T. Y. Qi, S. Qian, W. B. Qian, Z. Qian, C. F. Qiao, L. Q. Qin, X. P. Qin, X. S. Qin, Z. H. Qin, J. F. Qiu, S. Q. Qu, K. H. Rashid, K. Ravindran, C. F. Redmer, A. Rivetti, V. Rodin, M. Rolo, G. Rong, Ch. Rosner, M. Rump, H. S. Sang, A. Sarantsev, Y. Schelhaas, C. Schnier, K. Schoenning, M. Scodeggio, D. C. Shan, W. Shan, X. Y. Shan, J. F. Shangguan, M. Shao, C. P. Shen, H. F. Shen, P. X. Shen, X. Y. Shen, H. C. Shi, R. S. Shi, X. Shi, X. D Shi, W. M. Song, Y. X. Song, S. Sosio, S. Spataro, K. X. Su, P. P. Su, G. X. Sun, H. K. Sun, J. F. Sun, L. Sun, S. S. Sun, T. Sun, W. Y. Sun, X Sun, Y. J. Sun, Y. Z. Sun, Z. T. Sun, Y. H. Tan, Y. X. Tan, C. J. Tang, G. Y. Tang, J. Tang, J. X. Teng, V. Thoren, W. H. Tian, Y. T. Tian, I. Uman, B. Wang, C. W. Wang, D. Y. Wang, H. J. Wang, H. P. Wang, K. Wang, L. L. Wang, M. Wang, M. Z. Wang, Meng Wang, S. Wang, W. Wang, W. H. Wang, W. P. Wang, X. Wang, X. F. Wang, X. L. Wang, Y. Wang, Y. D. Wang, Y. F. Wang, Y. Q. Wang, Y. Y. Wang, Z. Wang, Z. Y. Wang, Ziyi Wang, Zongyuan Wang, D. H. Wei, F. Weidner, S. P. Wen, D. J. White, U. Wiedner, G. Wilkinson, M. Wolke, L. Wollenberg, J. F. Wu, L. H. Wu, L. J. Wu, X. Wu, Z. Wu, L. Xia, T. Xiang, H. Xiao, S. Y. Xiao, Z. J. Xiao, X. H. Xie, Y. G. Xie, Y. H. Xie, T. Y. Xing, C. J. Xu, G. F. Xu, Q. J. Xu, W. Xu, X. P. Xu, Y. C. Xu, F. Yan, L. Yan, W. B. Yan, W. C. Yan, Xu Yan, H. J. Yang, H. X. Yang, L. Yang, S. L. Yang, Y. X. Yang, Yifan Yang, Zhi Yang, M. Ye, M. H. Ye, J. H. Yin, Z. Y. You, B. X. Yu, C. X. Yu, G. Yu, J. S. Yu, T. Yu, C. Z. Yuan, L. Yuan, X. Q. Yuan, Y. Yuan, Z. Y. Yuan, C. X. Yue, A. A. Zafar, X. Zeng Zeng, Y. Zeng, A. Q. Zhang, B. X. Zhang, G. Y. Zhang, H. Zhang, H. H. Zhang, H. Y. Zhang, J. L. Zhang, J. Q. Zhang, J. W. Zhang, J. Y. Zhang, J. Z. Zhang, Jianyu Zhang, Jiawei Zhang, L. M. Zhang, L. Q. Zhang, Lei Zhang, S. Zhang, S. F. Zhang, Shulei Zhang, X. D. Zhang, X. Y. Zhang, Y. Zhang, Y. T. Zhang, Y. H. Zhang, Yan Zhang, Yao Zhang, Z. Y. Zhang, G. Zhao, J. Zhao, J. Y. Zhao, J. Z. Zhao, Lei Zhao, Ling Zhao, M. G. Zhao, Q. Zhao, S. J. Zhao, Y. B. Zhao, Y. X. Zhao, Z. G. Zhao, A. Zhemchugov, B. Zheng, J. P. Zheng, Y. H. Zheng, B. Zhong, C. Zhong, L. P. Zhou, Q. Zhou, X. Zhou, X. K. Zhou, X. R. Zhou, X. Y. Zhou, A. N. Zhu, J. Zhu, K. Zhu, K. J. Zhu, S. H. Zhu, T. J. Zhu, W. J. Zhu, Y. C. Zhu, Z. A. Zhu, B. S. Zou, and J. H. Zou

Subjects
Nuclear and High Energy Physics, Nuclear and particle physics. Atomic energy. Radioactivity, High Energy Physics::Phenomenology, High Energy Physics::Experiment, Branching fraction, e +-e − Experiments, QC770-798, QCD, High Energy Physics - Experiment
Abstract

Using 1310.6 × 106J/ψ and 448.1 × 106ψ(3686) events collected with the BESIII detector, the branching fractions of J/ψ decays to Σ+$$ \overline{\Sigma} $$ Σ ¯ − is measured to be (10.61 ± 0.04 ± 0.36) × 10−4, which is significantly more precise than the current world average. The branching fractions of ψ(3686) decays to Σ+$$ \overline{\Sigma} $$ Σ ¯ − is measured to be (2.52 ± 0.04 ± 0.09) × 10−4, which is consistent with the previous measurements. In addition, the ratio of $$ \mathcal{B} $$ B (ψ(3686) → Σ+$$ \overline{\Sigma} $$ Σ ¯ −)/$$ \mathcal{B} $$ B (J/ψ → Σ+$$ \overline{\Sigma} $$ Σ ¯ −) is determined to be (23.8 ± 1.1)% which violates the “12% rule”.

Published
2021

150. Observation of the decay D0→ρ−μ+νμ

Author

M. Kuemmel, Matthew Glenn Kurth, X. F. Cui, G. S. Huang, W. G. Li, W. J. Zhu, A. G. Denig, X. D. Shi, Dan Wang, W. Imoehl, S. Gu, M. Y. Dong, F. Li, Y. K. Sun, G. Y. Hou, Zeng, C. Dong, H. J. Lu, J. G. Lu, S. Sosio, X. H. Liu, L. Q. Qin, P. W. Luo, F. C. Ma, C. H. Heinz, Z. A. Liu, Xu Yan, K. H. Qi, V. Prasad, S. Spataro, Y. Ding, R. T. Ma, M. Qi, J. Libby, X. D. Zhang, H. J. Yang, L. H. Wu, Y. Ban, X. Q. Hao, Lei Li, A. Lavania, H. J. Wang, B. J. Liu, F. E. Maas, Tao Luo, S. P. Wen, Yaquan Fang, M. Greco, Shou-hua Zhu, T. Y. Xing, Y. T. Tian, S. Nakhoul, X. S. Qin, X. R. Zhou, K. Goetzen, H. M. Liu, Yi Jin, D. Y. Chen, T. Hu, Joachim Pettersson, Q. Liu, Cheng Li, J. F. Hu, M. G. Zhao, Y. B. Zhao, X. X. Ma, R. P. Guo, J. Zhu, J. H. Zou, A. Calcaterra, Z. G. Zhao, S. Jaeger, X. L. Li, Zhang Li, J. Tang, I. B. Nikolaev, J. H. Yin, B. X. Yu, T. Liu, J. F. Qiu, Xiangcheng Pan, P. Larin, G. F. Cao, T. T. Han, Y. Y. Wang, W. Shan, O. Bakina, S. F. Zhang, V. Rodin, S. Janchiv, Zhenxiong Yuan, Yunlong Zhang, M. H. Liu, C. Geng, John Jake Lane, D. Bettoni, Yu Bai, W. Kühn, L. L. Ma, S. J. Zhao, X. L. Lu, S. S. Sun, J. Dong, H. H. Zhang, Guoqiang Yu, Xin Wu, H. J. Li, L. Fava, Zhi Yang, L. Gong, Xujin Yuan, C. Zhong, J. L. Zhang, X. P. Xu, X. B. Ji, A. Q. Zhang, Peilian Liu, M. Kuessner, Q. J. Xu, H. K. Sun, R. Farinelli, Z. Y. You, S. Qian, Q. An, Jialun Ping, Z. A. Zhu, L. G. Xia, Y. X. Tan, Shulei Zhang, P. Patteri, Jianping Zheng, K. Schoenning, B. S. Zou, M. Shao, Y. T. Gu, A. Amoroso, A. Q. Guo, C. W. Wang, A. Bortone, F. Nerling, M. Lellmann, S. Nisar, Xuanhong Lou, Viktor Thorén, C. J. Tang, Nasser Kalantar-Nayestanaki, S. Maldaner, P. X. Shen, S. B. Liu, Z. Wu, D. C. Shan, X. P. Qin, Jianyu Zhang, X. Y. Zhang, W. M. Song, Yue Pan, Y. P. Lu, C. X. Yue, R. Kliemt, I. Balossino, H. B. Li, H. S. Chen, Alperen Yuncu, Jin Li, Q. A. Malik, X. L. Wang, F. F. Sui, M. H. Gu, R. Kiuchi, T. Y. Qi, Xiao-Rui Lyu, S. X. Du, L. Zhang, Y. Nefedov, K. Y. 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Subjects
Physics, Nuclear physics, 010308 nuclear & particles physics, 0103 physical sciences, 010306 general physics, 01 natural sciences
Published
2021
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