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2. Characterization of cytoplasmic viscosity of hundreds of single tumour cells based on micropipette aspiration

Author

K. Wang, X. H. Sun, Y. Zhang, T. Zhang, Y. Zheng, Y. C. Wei, P. Zhao, D. Y. Chen, H. A. Wu, W. H. Wang, R. Long, J. B. Wang, and J. Chen

Subjects
cellular biophysics, micropipette aspiration, cytoplasmic viscosity, single tumour cells, Science
Abstract

Cytoplasmic viscosity (μc) is a key biomechanical parameter for evaluating the status of cellular cytoskeletons. Previous studies focused on white blood cells, but the data of cytoplasmic viscosity for tumour cells were missing. Tumour cells (H1299, A549 and drug-treated H1299 with compromised cytoskeletons) were aspirated continuously through a micropipette at a pressure of −10 or −5 kPa where aspiration lengths as a function of time were obtained and translated to cytoplasmic viscosity based on a theoretical Newtonian fluid model. Quartile coefficients of dispersion were quantified to evaluate the distributions of cytoplasmic viscosity within the same cell type while neural network-based pattern recognitions were used to classify different cell types based on cytoplasmic viscosity. The single-cell cytoplasmic viscosity with three quartiles and the quartile coefficient of dispersion were quantified as 16.7 Pa s, 42.1 Pa s, 110.3 Pa s and 74% for H1299 cells at −10 kPa (ncell = 652); 144.8 Pa s, 489.8 Pa s, 1390.7 Pa s, and 81% for A549 cells at −10 kPa (ncell = 785); 7.1 Pa s, 13.7 Pa s, 31.5 Pa s, and 63% for CD-treated H1299 cells at −10 kPa (ncell = 651); and 16.9 Pa s, 48.2 Pa s, 150.2 Pa s, and 80% for H1299 cells at −5 kPa (ncell = 600), respectively. Neural network-based pattern recognition produced successful classification rates of 76.7% for H1299 versus A549, 67.0% for H1299 versus drug-treated H1299 and 50.3% for H1299 at −5 and −10 kPa. Variations of cytoplasmic viscosity were observed within the same cell type and among different cell types, suggesting the potential role of cytoplasmic viscosity in cell status evaluation and cell type classification.

Published
2019
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4. [The study of the correlation between age and the pathogenic factors of primary glaucoma: a review]

Author

C, Tan, Y, Hou, Y S, Qiao, J Y, Chen, and X H, Sun

Abstract

Age is an important risk factor for primary glaucoma. While the specific mechanism of primary glaucoma remained unclear, the change of ocular anatomy, the disturbance of aqueous humor balance, the change of ocular biomechanics and the disorder of neurometabolism contribute to the occurrence and development of primary glaucoma. This paper reviewes the latest studies on the correlation between age and the risk factors of glaucoma in the above four aspects, so as to provide some references for the in-depth discussion of the pathophysiology of primary glaucoma, and advancement on diagnosis, treatment and research of primary glaucoma.年龄是原发性青光眼重要的危险因素。目前原发性青光眼的具体发生机制尚未阐明,其中眼球解剖学因素、房水动力学因素、眼球生物力学因素和神经代谢因素随年龄改变,从不同层面促成了原发性青光眼的发生和发展。本文汇总国内外有关年龄与原发性青光眼关联的最新研究结果,针对上述4个原发性青光眼的发病因素进行综合分析,以期为临床深入探讨原发性青光眼发病机制,提高原发性青光眼临床诊疗和研究水平提供参考。.

Published
2022

5. [Strengthening the clinical research of minimally invasive glaucoma surgery]

Author

J Y, Chen and X H, Sun

Subjects
Tonometry, Ocular, Filtering Surgery, Humans, Minimally Invasive Surgical Procedures, Glaucoma, Intraocular Pressure
Abstract

Glaucoma is a leading cause of irreversible blindness in the world. The reduction of intraocular pressure is the main clinical treatment. Due to the limitations of traditional filter surgery, a variety of minimally invasive glaucoma surgery (MIGS) procedures have been applied in clinical practice in recent years. Quite a few of them have been carried out in China and achieved good results. At the same time, domestic technology enterprises are actively engaged in the development, innovation and localization of the MIGS equipment. However, there are still some problems in MIGS in China, which need to be paid attention to and require corresponding clinical research, so as to make it a new highlight in the clinical diagnosis and treatment of glaucoma.青光眼为全球首位不可逆致盲眼病,降低眼压是其主要治疗手段。由于传统滤过性手术存在诸多问题,近年多种微小切口青光眼手术(MIGS)进入我国临床并取得良好疗效,国内科技企业也在进行MIGS装置和器械国产化。本文在指出目前我国开展MIGS存在须严格掌握手术适应证、临床研究规模和质量不足、手术装置和器械价格昂贵、国内疗效不同于国外报道等问题的基础上,提出重视并开展MIGS临床研究的必要性及方法,以期指导临床多方面大量开展高质量相关研究,使MIGS能造福于我国广大青光眼患者。.

Published
2022

6. Observation of the π2σ2 -bond linear-chain molecular structure in C16

Author

J. X. Han, Y. Liu, Y. L. Ye, J. L. Lou, X. F. Yang, T. Baba, M. Kimura, B. Yang, Z. H. Li, Q. T. Li, J. Y. Xu, Y. C. Ge, H. Hua, Z. H. Yang, J. S. Wang, Y. Y. Yang, P. Ma, Z. Bai, Q. Hu, W. Liu, K. Ma, L. C. Tao, Y. Jiang, L. Y. Hu, H. L. Zang, J. Feng, H. Y. Wu, S. W. Bai, G. Li, H. Z. Yu, S. W. Huang, Z. Q. Chen, X. H. Sun, J. J. Li, Z. W. Tan, Z. H. Gao, F. F. Duan, J. H. Tan, S. Q. Sun, and Y. S. Song

Published
2022

7. Oxygen Defect Sn-Doped ZnO Nanorods for Enhanced Photocatalytic Activity under Visible Light Irradiation

Author

X. H. Sun, Hong Du, and Jing Wang

Subjects
Photocurrent, Materials science, Materials Science (miscellaneous), Doping, Photochemistry, law.invention, Inorganic Chemistry, chemistry.chemical_compound, X-ray photoelectron spectroscopy, chemistry, law, Rhodamine B, Photocatalysis, Nanorod, Physical and Theoretical Chemistry, High-resolution transmission electron microscopy, Electron paramagnetic resonance
Abstract

Sn doped ZnO (SZO) nanorods with oxygen-vacancy have been synthesized by one-step hydrothermal method. Detailed analysis based on X-ray photoelectron spectroscopy (XPS), transmission electron microscope (HRTEM), and electron paramagnetic resonance (EPR) has revealed that Sn doped ZnO nanorods are rich in oxygen-vacancies. Oxygen-vacancies lead to the band-gap narrowing of Sn doped ZnO nanorods due to broadening the valence band and an increase the visible-light response which results in high photocurrent responses and photocatalytic performance of Rhodamine B under visible-light illumination. Sn doped ZnO sample exhibits little decrease in activity even after 4 cycles, indicating that Sn doped ZnO is stable and not photocorroded easily.

Published
2020

9. [Importance and practice of standardized children's refractive development records]

Author

X M, Qu, R Y, Chu, X T, Zhou, X H, Sun, X Y, Wang, and Y, Xu

Subjects
China, Vision Tests, Myopia, Prevalence, Humans, Child
Abstract

The prevalence of myopia in China is increasing. The early onset and rapid progression of myopia in younger children have attracted more attention. The establishment of standardized children's refractive development records is the basis of myopic prevention and control. It would be helpful to follow the refractive status and pay more attention to the refractive development of potential myopic children, so as to reduce the prevalence of myopia.目前我国学生近视眼患病率不断上升,近视眼低龄化趋势不断扩大,已经引起国家和政府的高度重视。为使我国的近视眼防控工作尽早取得实质性效果,本文在阐述规范化建立儿童屈光发育档案意义的基础上,将近视高危学生作为降低近视眼患病率的主体,提出规范化建立儿童屈光发育档案的要点和临床实践意见,希望为眼科临床相关工作提供指导和参考。

Published
2021

11. Discovery of Galaxy Clusters and a Head-Tail Radio Galaxy in the Direction of Globular Cluster NGC 6752

Author

Zhiyuan Li, Zhongqun Cheng, X. H. Sun, and Wei Wang

Subjects
High Energy Astrophysical Phenomena (astro-ph.HE), Physics, Active galactic nucleus, Radio galaxy, FOS: Physical sciences, Astronomy and Astrophysics, Radius, Astrophysics, Astrophysics - Astrophysics of Galaxies, Redshift, Galaxy, Luminosity, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), Globular cluster, Astrophysics - High Energy Astrophysical Phenomena, Galaxy cluster
Abstract

We report the discovery of CXOU J191100-595621 and CXOU J191012-595619, two galaxy clusters serendipitously detected in the direction of globular cluster NGC 6752, based on archival {\it Chandra} observations with a total exposure time of $\sim 344$ ks. The deep {\it Chandra} X-ray data enabled us to measure properties of both systems, which result in a redshift of $z=0.239\pm0.013$ and $z=0.375\pm0.016$, a temperature of $kT=3.32^{+0.57}_{-0.46}$ keV and $kT=3.71^{+1.18}_{-0.86}$ keV, an iron abundance of $Z_{\rm Fe}=0.64^{+0.34}_{-0.29}Z_{\rm Fe\odot}$ and $Z_{\rm Fe}=1.29^{+0.97}_{-0.65}Z_{\rm Fe\odot}$, and a rest-frame full band (0.5-7 keV) luminosity of $L_{\rm X}=9.2^{+1.2}_{-1.1}\times 10^{43} {\rm \, erg\, s^{-1}}$ and $L_{\rm X}=9.9^{+2.7}_{-2.2}\times 10^{43} {\rm \, erg\, s^{-1}}$ for CXOU J191100-595621 and CXOU J191012-595619, respectively. The temperature profile of CXOU J191100-595621 is found to decreases with decreasing radius, indicating a cool core in this cluster. The hydrostatic equilibrium estimation suggests the clusters are moderately weighted, with $M_{500}=(1.3\pm0.4)\times 10^{14}\, M_{\odot}$ and $M_{500}=(2.0\pm1.5)\times 10^{14}\, M_{\odot}$, respectively. We search for optical and radio counterparts of X-ray point sources in the clusters. Three active galactic nuclei are found, among which one is identified with a narrow-angle-tail radio galaxy, and one is found to associated with the brightest central galaxy (BCG) of CXOU J191100-595621., 11 pages, 11 figures and 4 tables. Accepted for publication in MNRAS

Published
2021

12. S-band Polarization All-Sky Survey (S-PASS): survey description and maps

Author

Shea Brown, D. H. F. M. Schnitzler, Roland M. Crocker, Ettore Carretti, Sergio Poppi, X. H. Sun, M. J. Kesteven, Lister Staveley-Smith, Gianni Bernardi, Bryan Gaensler, Cormac Purcell, and Marijke Haverkorn

Subjects
Cosmology and Nongalactic Astrophysics (astro-ph.CO), Astronomy, media_common.quotation_subject, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, symbols.namesake, 0103 physical sciences, Planck, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, Astrophysics::Galaxy Astrophysics, media_common, Physics, 010308 nuclear & particles physics, Linear polarization, Astronomy and Astrophysics, Polarization (waves), Astrophysics - Astrophysics of Galaxies, CMB cold spot, Galaxy, Space and Planetary Science, Sky, Astrophysics of Galaxies (astro-ph.GA), symbols, S band, Astrophysics - Instrumentation and Methods for Astrophysics, Sagittarius, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We present the S-Band Polarization All Sky Survey (S-PASS), a survey of polarized radio emission over the southern sky at Dec~$< -1^\circ$ taken with the Parkes radio telescope at 2.3~GHz. The main aim was to observe at a frequency high enough to avoid strong depolarization at intermediate Galactic latitudes (still present at 1.4 GHz) to study Galactic magnetism, but low enough to retain ample Signal-to-Noise ratio (S/N) at high latitudes for extragalactic and cosmological science. We developed a new scanning strategy based on long azimuth scans, and a corresponding map-making procedure to make recovery of the overall mean signal of Stokes $Q$ and $U$ possible, a long-standing problem with polarization observations. We describe the scanning strategy, map-making procedure, and validation tests. The overall mean signal is recovered with a precision better than 0.5\%. The maps have a mean sensitivity of 0.81 mK on beam--size scales and show clear polarized signals, typically to within a few degrees of the Galactic plane, with ample S/N everywhere (the typical signal in low emission regions is 13 mK, and 98.6\% of the pixels have S/N $> 3$). The largest depolarization areas are in the inner Galaxy, associated with the Sagittarius Arm. We have also computed a Rotation Measure map combining S-PASS with archival data from the WMAP and Planck experiments. A Stokes $I$ map has been generated, with a sensitivity limited to the confusion level of 9 mK., Accepted for publication on MNRAS. Maps are available for download at the website indicated in the manuscript

Published
2019

16. [A new analysis method for 24-hour intraocular pressure data]

Author

R Y, Zhai, X M, Kong, S Y, Han, M, Xiao, and X H, Sun

Subjects
Tonometry, Ocular, Humans, Low Tension Glaucoma, Glaucoma, Open-Angle, Intraocular Pressure, Circadian Rhythm
Abstract

The study aimed to introduce a new analysis method of 24-hour intraocular pressure (IOP) and to propose the concept of overall IOP. Data of 24-hour IOP of a patient with a confirmed diagnosis of normal tension glaucoma was selected. Based on the present indexes including peak IOP, trough IOP, maximum difference, and mean IOP, new indexes were proposed, which included main IOP, duration of main IOP, and rate of IOP increase. A radar chart was drawn, and overall IOP was calculated. Overall IOP value = IOP distribution (sum of IOP value multiplied by the corresponding duration) × IOP fluctuation (standard deviation) × rate of IOP increase/100. By comparing two series of IOP data, the advantages of the new IOP indexes were demonstrated. The introduction of the concept of overall IOP expands the description of IOP from a single static state to a comprehensive dynamic state, which enables us to analyze the results of 24-hour IOP monitoring more thoroughly.介绍一种新的24 h眼压数据分析方法,并提出全眼压的概念。选取1例确诊正常眼压性青光眼患者的24 h眼压数据,在原有指标眼压峰值、谷值、最大差值、平均值的基础上,提出主体眼压、主体眼压时长、升压速率等指标,绘制雷达图,计算得出全眼压的值。全眼压值=眼压值分布(各分区的眼压值×相应时长的总和)×眼压波动(标准差)×眼压上升速率/100。并通过2次眼压的数据对比,分析新的眼压指标的优势。全眼压概念的提出,把对眼压的描述从单一静态扩展到了全面动态,使24 h眼压监测结果的分析更深入细致。

Published
2021

18. Search for the reaction channel e+e−→ηcηπ+π− at center-of-mass energies from 4.23 to 4.60 GeV

Author

J. H. Zou, X. L. Ji, S. S. Sun, Z. Y. Zhang, Y. G. Xie, M. H. Ye, Li Zhou, R. E. Mitchell, R. Kappert, Z. L. Dou, M. Qi, L. Koch, A. Khoukaz, Y. Fu, M. M. Ma, H. J. Yang, L. Y. Dong, R. Baldini Ferroli, Y. H. Yan, Bibo Ke, J. Chai, W. B. Yan, S. Pacetti, Krisztian Peters, S. Malde, N. Huesken, M. Z. Wang, Y. Schelhaas, M. Kuessner, Ke Li, R. Kliemt, G. X. Sun, J. V. Bennett, Li Yan, A. Mangoni, A. Guskov, G. A. Chelkov, F. F. Sui, S. L. Yang, G. R. Liao, X. N. Ma, J. Libby, G. F. Xu, S. Jin, L. J. Wu, Y. J. Mo, J. W. Zhao, Y. C. Zhu, M. Bertani, L. Yang, Z. Jiao, D. H. Zhang, B. Wang, H. R. Qi, Q. Q. Song, Xujin Yuan, Jie Yu, M. H. Gu, R. Kiuchi, X. N. Li, Haiping Peng, M. Kuemmel, Matthew Glenn Kurth, M. Fritsch, M. Kavatsyuk, Y. P. Guo, Xiao-Rui Lyu, S. B. Liu, Y. Nefedov, Zongyuan Wang, T. J. Min, K. J. Zhu, J. C. Li, Q. Liu, Serkant Ali Cetin, X. Y. Song, C. Sowa, Y. B. Zhao, W. Shan, J. Dong, Y. H. Xie, Xiang-Gan Liu, Q. P. Ji, H. J. Lu, J. G. Lu, P. Kiese, Yuan Hou, Yaquan Fang, M. Greco, Shou-hua Zhu, X. F. Cui, G. Cibinetto, P. W. Luo, Tristan Weber, Y. T. Tan, Ke Wang, X. Tang, H. Y. Sheng, M. Maggiora, Ling Zhao, W. Gradl, Y. H. Zheng, B. X. Zhang, F. E. Maas, I. R. Boyko, Liqing Xu, S. Nisar, G. S. Huang, L. L. Ma, M. G. Zhao, Y. H. Yang, L. Gong, X. X. Ma, S. Qian, Q. An, Jialun Ping, Lei Zhao, Z. L. Hou, R. P. Guo, J. Zhu, J. Zhuang, J. Min, Zhang Li, W. J. Zhu, M. X. Luo, T. Hu, Magnus Wolke, R. A. Briere, K. Zhang, X. Y. Zhang, J. J. Xu, T. Held, Z. Q. Yang, J. Bloms, X. D. Shi, Dan Wang, C. J. Tang, I. B. Nikolaev, L. G. Xia, Y. Hu, P. L. Wang, X. Y. Shen, Y. F. Liang, A. Amoroso, S. Gu, R. Poling, F. H. Heinsius, Y. P. Lu, X. L. Wang, J. H. Yin, H. B. Liu, X. L. Li, Meng Wang, B. Kopf, O. Bakina, M. Rolo, D. P. Jin, D. V. Dedovich, Xu Zhou, V. Rodin, X. S. Jiang, J. S. Huang, J. F. Sun, Q. Ouyang, J. B. Liu, C. X. Liu, C. Z. Yuan, N. Cao, K. L. He, A. Dbeyssi, Muhammad Irshad, Fenfen An, Y. J. Sun, Yifan Yang, S. W. Han, K. Schoenning, Q. Y. Li, B. S. Zou, M. Shao, Y. T. Gu, S. Marcello, Y. Ding, B. L. Wang, B. J. Liu, X. P. Xu, X. B. Ji, T. Y. Xing, D. Y. Chen, P. Patteri, Y. Zeng, Y. J. Lin, Zhe Sun, N. Qin, S. Lusso, Jimin Zhao, P. X. Shen, Z. G. Wang, Z. Wu, S. S. Fang, H. Y. Zhang, Angelo Rivetti, P. L. Li, R. X. Yang, Wei Xu, A. Pitka, C. X. Yu, P. Adlarson, T. C. Zhao, F. Cossio, Q. A. Malik, G. Mezzadri, C. F. Redmer, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, D. Y. Liu, J. B. Jiao, F. De Mori, J. J. Song, I. Uman, G. Wilkinson, W. C. Yan, K. Goetzen, W. S. Cheng, Zhiqing Zhang, W. Kühn, Yao Zhang, G. Li, L. Sun, Z. Y. You, Z. A. Zhu, Z. Gao, Jun-Yi Zhang, H. B. Li, S. L. Niu, Y. B. Liu, F. A. Harris, W. L. Chang, G. F. Chen, C. L. Luo, Tao Luo, Q. Zhou, F. Feldbauer, Cong-Feng Qiao, B. Zheng, R. G. Ping, C. D. Fu, C. Q. Feng, J. Y. Zhang, C. C. Zhang, Feng Liu, Y. F. Long, K. Ravindran, Z. P. Zhang, H. Leithoff, B. Zhong, L. B. Guo, M. Ablikim, X. Y. Jiang, M. Albrecht, Yunlong Zhang, Lei Li, L. M. Gu, M. N. Achasov, F. Li, Z. Y. Deng, N. Yu. Muchnoi, Z. J. Xiao, Huanhuan Liu, B. X. Yu, G. Felici, M.G. Alekseev, M. Richter, L. P. Zhou, Y. M. Ma, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, W. D. Li, H. W. Wen, A. N. Zhu, Tao Zhang, F. C. Ma, Z. P. Mao, X. S. Kang, Y. H. Zhang, X. F. Wang, B. T. Tsednee, Shulei Zhang, Zujian Wang, Q. M. Ma, Z. Ning, S. Y. Xiao, S. L. Olsen, D. Bettoni, J. L. Zhang, Y. K. Heng, Yi Zhang, A. Mustafa, F. Y. Li, H. S. Chen, Alperen Yuncu, Xu Shan, S. J. Zhao, J. Fang, H. L. Jiang, S. Q. Qu, Z. B. Li, Jianping Zheng, J. Q. Zhang, Z. Y. Wang, Teresa Lenz, C. P. Shen, H. L. Dai, T. Liu, J. F. Qiu, M. Papenbrock, J. D. Lu, Xiaozhong Huang, Y. Q. Wang, W. Ikegami Andersson, Y. Yuan, Y. S. Zhu, Yu Zhang, W. Imoehl, Y. F. Wang, L. Fava, A. Calcaterra, Z. G. Zhao, L. Z. Liao, Q. J. Xu, X. H. Liu, F. Nerling, Yu Bai, J. C. Chen, Ch. Rosner, Xuanhong Lou, H. H. Zhang, Viktor Thorén, Z. J. Sun, X. T. Huang, X. H. Mo, L. S. Wang, T. Hussain, G. Rong, Andrzej Kupsc, H. J. Li, J. P. Dai, X. H. Li, Nasser Kalantar-Nayestanaki, C. Morales Morales, Yue Pan, Yang Zhang, S. Maldaner, Z. X. Meng, X. A. Xiong, X. Y. Ma, M. L. Chen, I. Balossino, W. X. Gong, H. Liang, A. A. Zafar, Q. L. Xiu, Xingchao Dai, E. M. Gersabeck, X. K. Zhou, L. L. Wang, H. Cai, K. H. Rashid, C. H. Li, X. H. Sun, Jacek Biernat, Y. T. Liang, S. J. Chen, X. L. Luo, Ke Liu, L. H. Wu, M. Savrie, Yi Jin, J. W. Li, Lingxuan Zhang, R. M. Wang, Y. J. Xiao, K. Begzsuren, W. P. Wang, F. Bianchi, X. P. Qin, Zhiqing Liu, L. Y. Liu, Z. A. Liu, T. Johansson, J. F. Chang, V. Prasad, O. B. Kolcu, Y. Ban, P. Weidenkaff, S. P. Wen, X. Cai, L. Lavezzi, X. S. Qin, X. R. Zhou, Cheng Li, G. Y. Tang, Jie Zhao, D. X. Lin, Alexey Zhemchugov, H. M. Hu, F. H. Liu, Nicolas Berger, J. W. Zhang, T. Y. Qi, M. Himmelreich, Y. X. Xia, T. Yu, Y. G. Gao, X. Q. Hao, S. Nakhoul, P. Larin, J. Y. Liu, Q. Gao, Y. N. Gao, Y. Zhang, Feng Yan, J. Z. Fan, S. Ahmed, Y. X. Yang, Q. Zhao, Y. Z. Sun, I. K. Keshk, C. X. Lin, Alexander Leon Gilman, M. Rump, Gang Zhao, R. Farinelli, H. L. Ma, D. M. Li, A. Q. Guo, C. W. Wang, H. Muramatsu, M. Pelizaeus, Z. H. Qin, X D Shi, Y. J. Mao, H. X. Yang, I. Garzia, B. Garillon, Huihui Liu, J. G. Messchendorp, W. G. Li, A. G. Denig, Y. K. Sun, Xiaoyu Zhou, S. Spataro, H. M. Liu, J. F. Hu, G. F. Cao, S. X. Du, K. Y. Liu, Fang Liu, U. Wiedner, I. Denysenko, B. Y. Zhang, M. Destefanis, X. L. Gao, C. Dong, S. Sosio, Joachim Pettersson, and M. Y. Dong

Subjects
Nuclear physics, Physics, Positron, Meson, law, Center of mass, Electron, Collider, Energy (signal processing), law.invention
Abstract

Using data collected with the BESIII detector operating at the Beijing Electron Positron Collider, we search for the process $e^+e^-\rightarrow \eta_c\eta \pi^+\pi^-$. The search is performed using five large data sets recorded at center-of-mass energies of 4.23, 4.26, 4.36, 4.42, and 4.60 GeV. The $\eta_c$ meson is reconstructed in 16 exclusive decay modes. No signal is observed in the $\eta_c$ mass region at any center-of-mass energy. The upper limits on the reaction cross sections are determined to be 6.2, 10.8, 27.6, 22.6 and 23.7 pb at the 90% confidence level at the center-of-mass energies listed above.

Published
2021

20. Eikonal method for charge-exchange reactions at intermediate energies

Author

Yan-Lin Ye, Xiaofei Yang, Carlos A. Bertulani, Dan-Yang Pang, Jing Li, Bo-jun Yang, X. H. Sun, Jian-Ling Lou, and Yu-xin Liu

Subjects
Physics, Low energy, 010308 nuclear & particles physics, Eikonal equation, Quantum electrodynamics, 0103 physical sciences, Born approximation, 010306 general physics, 01 natural sciences, Charge exchange
Abstract

A novel description of charge-exchange reactions at intermediate energies is developed, based on both phenomenological or microscopic eikonal phase-shift functions. The results obtained within this eikonal approach are in good agreement with the distorted-wave Born approximation calculations within the energy region where both approximations should be valid. They also compare well with the experimental data, even at relatively low energy domain. At higher energies, relativistic kinematics have also been added and shown to be relevant. Owing to the microscopic feature of the formulation, our theory also has the advantage that it can be applied to high energies where the phenomenological optical potentials are rarely available.

Published
2020

21. First Report of Natural Infection of Zucchini by Tomato Chlorosis Virus and Cucurbit Chlorotic Yellows Virus in China

Author

Xiaoping Zhu, Dan Zhao, Ning Qiao, X. H. Sun, Xianping Zhang, and Lianyi Zang

Subjects
China, Crinivirus, Chlorosis, biology, Genome, Viral, Plant Science, Tomato chlorosis virus, Cucurbit chlorotic yellows virus, biology.organism_classification, Crop, Horticulture, Cucurbita pepo, Cucurbita, Agronomy and Crop Science
Abstract

Zucchini (Cucurbita pepo) is an extensively cultivated and important economic cucurbit crop in China. In September 2018 and 2019, interveinal chlorosis and yellowing symptoms, suspected to be cause...

Published
2022

22. [Ureteral infiltrating urothelial carcinoma with notochord features: report of a case]

Author

Z Y, Yue, Z J, Tian, H, Wang, X H, Sun, and B, Xu

Subjects
Carcinoma, Transitional Cell, Ureteral Neoplasms, Notochord, Humans, Kidney Pelvis, Kidney Neoplasms
Abstract

具有脊索样特征的浸润性尿路上皮癌是一种具有极其罕见组织学特征的浸润性尿路上皮癌,组织学上以突出的细胞性条索和丰富的细胞外黏液样基质为特征,肿瘤局灶区域多含有典型的高级别浸润性尿路上皮癌。免疫表型上,肿瘤仍表达尿路上皮标志物。过碘酸-雪夫(PAS)特殊染色呈阳性,染色标记中未见细胞内黏液存在。荧光原位杂交未检测到EWSR1-NR4A3融合性基因。本例患者术后未做任何治疗,6个月后死亡。由于文献报告例数有限,与普通型高级别浸润性尿路上皮癌的预后是否有差异,尚需更多病例积累。.

Published
2020

24. Reaction Study on Spallation and Fragmentation of 136Xe Induced by Proton, Deuteron, and Carbon

Author

N. Fukuda, Megumi Niikura, T. Kubo, T. Isobe, G. Lorusso, P. A. Söderström, Yukie Maeda, S. Kawakami, Masayuki Aikawa, Ryo Taniuchi, H. Suzuki, K. Yoshida, S. Kubuno, H. Takeda, Shoko Koyama, H. Wang, Keita Nakano, Yu. Watanabe, D. S. Ahn, X. H. Sun, H. Sakurai, S. Takeuchi, Satoru Momiyama, H. Otsu, Ya. Watanabe, A. Makinaga, Yoshiaki Shiga, and Hayata Yamasaki

Subjects
Nuclear reaction, Nuclear physics, Materials science, Deuterium, Isotope, Proton, Fragmentation (mass spectrometry), chemistry, Isotopes of xenon, chemistry.chemical_element, Spallation, Carbon
Published
2020

25. Spallation and fragmentation cross sections for 168 MeV/nucleon Xe136 ions on proton, deuteron, and carbon targets

Author

Yoshiaki Shiga, T. Isobe, Satoru Momiyama, T. Kubo, Keita Nakano, Shinsuke Nakayama, Ryo Taniuchi, Masayuki Aikawa, Giuseppe Lorusso, Ya. Watanabe, Hiroyoshi Sakurai, Shoko Koyama, Satoshi Takeuchi, Hideaki Otsu, Kenichi Yoshida, Hua-Lei Wang, A. Makinaga, Xiaofei Yang, D. S. Ahn, Naoki Fukuda, Hayata Yamasaki, Megumi Niikura, X. H. Sun, P. A. Söderström, Shigeru Kubono, Yan-Lin Ye, Hiroshi Suzuki, Yukie Maeda, H. Takeda, S. Kawakami, and Yu. Watanabe

Subjects
Physics, Nuclear physics, Deuterium, Fragmentation (mass spectrometry), Spallation, Nucleon, Ion
Published
2020

26. Determination of Strong-Phase Parameters in D→KS,L0π+π−

Author

L. Yang, Y. Ding, B. J. Liu, Zongyuan Wang, Xiaozhong Huang, T. Y. Xing, D. Y. Chen, W. Kühn, Y. T. Tan, Tao Luo, H. J. Lu, J. G. Lu, Y. Fu, Xujin Yuan, Z. X. Meng, X. A. Xiong, Q. A. Malik, G. Mezzadri, A. Calcaterra, Z. G. Zhao, L. Z. Liao, Q. Ouyang, Z. Y. You, Z. A. Zhu, W. Gradl, Y. H. Zheng, D. Y. Wang, B. X. Yu, Cong-Feng Qiao, S. B. Liu, L. Zhang, Y. H. Yan, Krisztian Peters, T. Weber, A. A. Zafar, Y. Nefedov, Andrzej Kupsc, S. S. Fang, F. E. Maas, T. Hu, H. H. Zhang, Z. J. Sun, C. P. Shen, J. W. Zhao, Y. C. Zhu, N. Yu. Muchnoi, H. S. Chen, Fang Liu, I. Denysenko, T. Y. Qi, W. C. Yan, M. L. Chen, B. Y. Zhang, J. J. Xu, L. M. Gu, L. P. Zhou, P. R. Li, S. Maldaner, X. Y. Jiang, S. L. Yang, S. F. Zhang, K. H. Rashid, Y. B. Liu, O. Bakina, Bingxuan Liu, G. Wilkinson, H. L. Dai, Igor Boyko, Y. H. Zhang, F. Feldbauer, Y. M. Ma, G. R. Liao, W. S. Cheng, Yao Zhang, Z. Q. Yang, L Y Liu, Y. X. Xia, S. H. Zhu, G. Li, T. Yu, M. M. Ma, Z. P. Mao, Feng Liu, Y. Schelhaas, H. J. Li, X. K. Zhou, P. X. Shen, A. Gilman, L. J. Wu, Y. T. Liang, R. Farinelli, J. S. Huang, Cui Li, J. Fang, M. Ablikim, Z. Y. Wang, H. B. Li, C. D. Fu, C. Q. Feng, X. Liu, A. G. Denig, C. L. Luo, T. Held, Z. Wu, C. X. Liu, Michael Papenbrock, F. Yan, Q. Zhou, H. R. Qi, Q. Q. Song, S. J. Zhao, Z. Gao, L. Koch, A. Khoukaz, J. Min, Huanhuan Liu, M. Richter, S. J. Chen, X. L. Ji, Y. J. Mo, Z. Ning, S. Y. Xiao, Zhiqing Zhang, Stephen Lars Olsen, H. L. Ma, T. Lenz, D. M. Li, R. Baldini Ferroli, C. C. Zhang, B. Zhong, L. B. Guo, Z. Y. Deng, J. L. Zhang, Ch. Rosner, Y. Pan, G. Felici, C. W. Wang, G. Rong, Guangshun Huang, I. Uman, B. Kopf, Shan Jin, Serkant Ali Cetin, H. Muramatsu, A. N. Zhu, Ulrich Wiedner, S. Malde, S. Nakhoul, M. Z. Wang, Tao Zhang, J. Chai, W. Imoehl, Z. J. Xiao, D. J. Ambrose, G. X. Sun, J. V. Bennett, K. Goetzen, Q. J. Xu, X. Wang, X. S. Kang, F. De Mori, M. Kuemmel, Matthew Glenn Kurth, Lei Li, M. Pelizaeus, Yunlong Zhang, Ziyuan Li, X. N. Li, V. Prasad, S. Han, F. F. Sui, M. H. Gu, X. N. Ma, R. Kiuchi, Xingguo Li, K. L. He, L. Yan, M. Kuessner, Jimin Zhao, J. C. Chen, Xuanhong Lou, Viktor Thorén, P. L. Li, S. Qian, Q. An, Jialun Ping, Haiping Peng, J. Libby, Z. Jiao, Fu-Hu Liu, Xu Shan, D. H. Zhang, H. Y. Sheng, Ke Wang, K. Zhang, Nasser Kalantar-Nayestanaki, P. Larin, D. Bettoni, W. Shan, S. Ahmed, Xiang-Gan Liu, Y. G. Xie, J. C. Li, X. F. Cui, Y. X. Yang, X. Y. Zhang, C. Sowa, Y. B. Zhao, C. Morales Morales, Li Zhou, R. Poling, H. L. Jiang, B. Wang, J. Zhuang, G. A. Chelkov, M. Kavatsyuk, M. X. Luo, C. X. Yu, J. Dong, Meng Wang, Jianping Zheng, Q. P. Ji, S. X. Du, R. Kappert, Liqing Xu, D. V. Dedovich, X. H. Li, Xu Zhou, Z. L. Dou, L. H. Wu, Y. H. Xie, M. Qi, H. J. Yang, G. Y. Tang, R. Kliemt, A. Mangoni, Q. L. Xiu, X. L. Wang, J. B. Liu, Y. J. Sun, Yifan Yang, G. F. Xu, Y. P. Lu, Yaquan Fang, I. Balossino, A. Pitka, Fenfen An, B. L. Wang, Xingchao Dai, T. C. Zhao, Zhiqing Liu, M. Albrecht, W. D. Li, S. Nisar, B. T. Tsednee, Q. Zhao, Evelina Gersabeck, Y. Z. Sun, B. Zheng, X. Y. Shen, R. G. Ping, Anita, S. Gu, T. J. Min, C. J. Tang, W. J. Zhu, K. Y. Liu, X. D. Shi, Xiang Zhou, Y. Hu, Xiao-Rui Lyu, X. F. Wang, M. Savrie, M. Maggiora, Ling Zhao, T. Johansson, Lei Zhao, J. F. Chang, B. X. Zhang, A. Guskov, Jie Yu, Jie Zhao, D. X. Lin, Alexey Zhemchugov, H. M. Hu, Yi Jin, D. Y. Liu, J. B. Jiao, J Chen, M. G. Zhao, Y. H. Yang, X. X. Ma, J. Zhu, Q. M. Ma, W. P. Wang, X. L. Luo, Z. A. Liu, K. Schoenning, Q. Y. Li, Y. Gao, B. S. Zou, I. K. Keshk, C. X. Lin, M. Rump, Gang Zhao, J. F. Sun, Y. F. Wang, Y. G. Gao, Z. H. Qin, X. Y. Song, Z. L. Hou, A. Mustafa, O. B. Kolcu, M. Destefanis, Y. Zhang, X. L. Gao, Magnus Wolke, K. J. Zhu, Niklaus Berger, Y. F. Liang, Y. Ban, P. Weidenkaff, F. H. Heinsius, J. W. Li, K. Begzsuren, D. P. Jin, Y. Yuan, Z. G. Wang, S. Marcello, Y. Zeng, Y. S. Zhu, A. Q. Guo, Y. J. Lin, Zhe Sun, S. Lusso, J. Y. Liu, Yu Zhang, X. Cai, L. Lavezzi, F. Bianchi, H. Y. Zhang, Haiwen Liu, C. Dong, L. Xia, R. M. Wang, Y. J. Xiao, M. Alekseev, G. Cibinetto, S. Sosio, C. Z. Yuan, N. Cao, Jun-Yi Zhang, I. B. Nikolaev, S. P. Wen, H. Liang, X. Q. Hao, X. R. Zhou, M. Himmelreich, W. G. Li, Q. Liu, Y. P. Guo, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, J. Bloms, Cheng Li, G. F. Chen, Y. K. Sun, Z. P. Zhang, P. W. Luo, N. Qin, Xiaoyu Zhou, Joachim Pettersson, J. Y. Zhang, L. L. Ma, L. Gong, Q. Gao, J. J. Song, L. Sun, J. Z. Fan, J. H. Yin, X. Tang, S. Spataro, X. P. Xu, A. Amoroso, Zujian Wang, M. Fritsch, H. W. Wen, A. Yuncu, M. Rolo, Y. Bai, Y. K. Heng, F. Cossio, A. Dbeyssi, Jianhao Zhang, G. F. Cao, V. Rodin, Ke Liu, M. Shao, Y. T. Gu, X D Shi, Y. J. Mao, H. X. Yang, J. F. Hu, X. B. Ji, I. Garzia, P. Patteri, B. Garillon, Huihui Liu, Zhiyong Zhang, J. G. Messchendorp, X. P. Qin, J. P. Dai, Angelo Rivetti, C. F. Redmer, J. D. Lu, Y. Q. Wang, X. T. Huang, A. Sarantsev, D. H. Wei, J. S. Lange, X. H. Mo, L. S. Wang, M. H. Ye, L. L. Wang, H. Cai, Jacek Biernat, L. Y. Dong, F. Nerling, M. Y. Dong, H. B. Liu, J. H. Zou, S. S. Sun, X. S. Qin, R. E. Mitchell, Bibo Ke, W. B. Yan, M. N. Achasov, S. Pacetti, N. Huesken, Ke Li, T. Hussain, X. Y. Ma, W. X. Gong, X. H. Sun, P. Kiese, Yuan Hou, R. A. Briere, X. S. Jiang, R. X. Yang, Wei Xu, P. Adlarson, J. Q. Zhang, S. L. Niu, F. Y. Li, Y. F. Long, K. Ravindran, M. Greco, Yi Zhang, R. P. Guo, S. Q. Qu, Z. B. Li, W. Ikegami Andersson, F. Li, F. C. Ma, T. Liu, J. F. Qiu, L. Fava, Yang Zhang, P. L. Wang, Muhammad Irshad, F. A. Harris, W. L. Chang, H. Leithoff, and M. Bertani

Subjects
Physics, Particle physics, Annihilation, Phase (waves), General Physics and Astronomy, 01 natural sciences, law.invention, law, 0103 physical sciences, CP violation, Charm (quantum number), Sensitivity (control systems), 010306 general physics, Collider, Mixing (physics), Energy (signal processing)
Abstract

We report the most precise measurements to date of the strong-phase parameters between D^{0} and D[over ¯]^{0} decays to K_{S,L}^{0}π^{+}π^{-} using a sample of 2.93 fb^{-1} of e^{+}e^{-} annihilation data collected at a center-of-mass energy of 3.773 GeV with the BESIII detector at the BEPCII collider. Our results provide the key inputs for a binned model-independent determination of the Cabibbo-Kobayashi-Maskawa angle γ/ϕ_{3} with B decays. Using our results, the decay model sensitivity to the γ/ϕ_{3} measurement is expected to be between 0.7° and 1.2°, approximately a factor of three smaller than that achievable with previous measurements, based on the studies of the simulated data. The improved precision of this work ensures that measurements of γ/ϕ_{3} will not be limited by knowledge of strong phases for the next decade. Furthermore, our results provide critical input for other flavor-physics investigations, including charm mixing, other measurements of CP violation, and the measurement of strong-phase parameters for other D-decay modes.

Published
2020

27. Determination of the Pseudoscalar Decay Constant fDs+ via Ds+→μ+νμ

Author

M. Y. Dong, H. Liang, H. B. Liu, D. Y. Liu, J. B. Jiao, Y. K. Heng, R. Farinelli, M. Qi, J. H. Zou, H. L. Ma, H. J. Yang, D. M. Li, S. S. Sun, X. S. Qin, M. Fritsch, S. Ahmed, M. Pelizaeus, M. Richter, Z. Ning, L. J. Wu, Y. J. Mo, R. E. Mitchell, H. J. Lu, J. G. Lu, Kai Liu, Michael Papenbrock, F. Yan, J. F. Hu, X. B. Ji, M. Tiemens, Ke Liu, S. B. Liu, S. F. Zhang, Zhiyong Zhang, J. C. Li, J. Zhuang, F. E. Maas, T. Hu, L. Zhang, Y. Nefedov, F. De Mori, Y. Zhang, T. Holtmann, P. Patteri, J. Y. Liu, Q. A. Malik, G. Mezzadri, S. Qian, Q. An, Jialun Ping, K. Zhang, Z. J. Xiao, M. X. Luo, D. V. Dedovich, F. Li, F. C. Ma, Fang Liu, X. K. Zhou, I. Denysenko, W. C. Yan, O. Bakina, M. Bertani, Z. Haddadi, L. Yang, Q. Gao, Y. N. Gao, Ke Li, X. N. Ma, L. M. Gu, L. P. Zhou, Y. M. Ma, Z. P. Mao, X. Y. Zhang, Meng Wang, X. Y. Zhou, Z. T. Sun, M. Lara, J. B. Liu, Y. J. Sun, Yifan Yang, J. Z. Fan, Zhiqing Liu, T. Johansson, J. F. Chang, G. S. Huang, X. Zhou, Y. Fu, I. Tapan, Y. H. Yan, I. B. Nikolaev, J. H. Yin, B. Y. Zhang, Ke Wang, X D Shi, Xiao-Rui Lyu, Y. J. Mao, Y. F. Wang, O. B. Kolcu, X. Cai, L. Lavezzi, X. Q. Hao, J. W. Zhao, V. Prasad, Yunlong Zhang, H. L. Liu, Y. X. Yang, D. Bettoni, H. X. Yang, I. Garzia, Y. P. Lu, Cui Li, P. X. Shen, Z. Wu, J. F. Qiu, Q. P. Ji, Y. C. Zhu, L. Yan, P. Wang, M. Kuessner, J. Fang, Tao Li, A. Calcaterra, Z. G. Zhao, S. Fegan, L. Z. Liao, H. H. Zhang, Z. J. Sun, Y. G. Gao, B. Garillon, Huihui Liu, Y. T. Tan, W. Gradl, M. Ripka, Q. Zhao, Y. Ban, P. Weidenkaff, F. H. Heinsius, Z. Gao, S. P. Wen, X. R. Zhou, Jun-Yi Zhang, Y. P. Guo, J. G. Messchendorp, Zhiqing Zhang, M. Shao, Y. T. Gu, L. Fava, Ch. Rosner, J. P. Dai, R. Poling, G. S. Varner, Liqing Xu, X. Y. Shen, Y. Z. Sun, Bibo Ke, A. Zallo, B. Wang, W. B. Yan, M. N. Achasov, D. Y. Wang, J. Libby, C. X. Lin, R. Kliemt, H. B. Li, A. G. Denig, C. L. Luo, X. Xia, M. Kuemmel, Matthew Glenn Kurth, Qiunan Xu, W. Shan, Cheng Li, S. Han, Z. P. Zhang, Xiaozhong Huang, Gang Zhao, Yaquan Fang, S. Zhu, X. Liu, A. Mangoni, A. Guskov, H. R. Qi, Q. Zhou, J. J. Xu, J. Min, X. F. Wang, A. Sarantsev, A. Pitka, A. Q. Guo, C. W. Wang, G. Rong, S. Pacetti, L. H. Wu, Y. Ding, M. Kavatsyuk, Q. M. Ma, C. C. Zhang, D. H. Wei, P. R. Li, J. S. Lange, Serkant Ali Cetin, P. L. Chen, D. W. Bennett, G. A. Chelkov, B. Zhong, L. B. Guo, Zujian Wang, Y. Bai, T. Held, Yang Zhang, Ling Zhao, B. J. Liu, A. Mustafa, J. L. Zhang, J. S. Huang, B. Kopf, M. H. Gu, H. Muramatsu, A. N. Zhu, Ulrich Wiedner, K. L. He, Tao Zhang, Y. H. Xie, J. Pellegrino, W. P. Wang, T. J. Min, M. Kornicer, Andrzej Kupsc, C. X. Liu, Z. H. Qin, H. Y. Sheng, Y. Yuan, Y. S. Zhu, K. J. Zhu, W. Kühn, X. L. Ji, M. Maggiora, W. M. Song, M. Z. Wang, Jimin Zhao, K. Schoenning, Q. Y. Li, G. Cibinetto, Yu Zhang, B. S. Zou, Z. Liu, M. L. Chen, W. G. Li, P. L. Li, Z. Y. You, Z. A. Zhu, Niklaus Berger, C. X. Yu, Y. K. Sun, Xu Shan, Yi Jin, Xinglong Li, S. Spataro, X. H. Mo, L. S. Wang, M. Destefanis, Q. Liu, X. Y. Jiang, M. H. Ye, Lei Zhao, Z. L. Hou, X. P. Xu, Lei Li, B. X. Zhang, Bingxuan Liu, B. Zheng, T. Weber, M. M. Ma, L. L. Ma, L. Gong, T. Khan, R. G. Ping, J. W. Li, P. L. Wang, G. F. Xu, X. Tang, L. L. Wang, H. Cai, A. Amoroso, M. Alekseev, P. F. Duan, C. P. Shen, Dan Wang, G. F. Cao, Yao Zhang, Y. G. Xie, G. Li, Y. Hu, L. Xia, Muhammad Irshad, A. Yuncu, M. Rolo, A. Dbeyssi, C. Z. Yuan, Y. J. Xiao, S. X. Du, Magnus Wolke, Gianfranco Morello, M. Albrecht, Y. F. Liang, Z. L. Dou, A. Gilman, J. F. Sun, Y. Pan, D. P. Jin, A. Julin, X. Y. Song, F. Cossio, W. D. Li, F. Feldbauer, C. D. Fu, L. Y. Dong, J. Chai, B. T. Tsednee, Z. X. Meng, X. A. Xiong, N. Qin, G. X. Sun, J. V. Bennett, Shan Jin, K. Goetzen, F. A. Harris, W. L. Chang, Z. L. Huang, Feng Liu, S. Marcello, Y. Zeng, W. J. Zheng, Fenfen An, C. Q. Feng, F. Nerling, A. A. Zafar, H. Leithoff, Z. Jiao, Fu-Hu Liu, D. H. Zhang, Z. Y. Deng, M. Ablikim, C. Sowa, Y. B. Zhao, S. Lusso, J. Dong, B. L. Wang, Y. Q. Wang, S. Nisar, C. J. Tang, Xingguo Li, Y. B. Chen, K. H. Rashid, Xiaofeng Zhu, J. Z. Zhang, J. J. Song, L. Sun, D. Xiao, Y. T. Liang, Krisztian Peters, S. L. Yang, G. R. Liao, S. J. Chen, T. C. Zhao, Jinxing Zheng, C. F. Redmer, J. D. Lu, C. Schnier, X. T. Huang, Huanhuan Liu, G. Felici, B. X. Yu, Z. G. Wang, Zhi Zeng, H. Y. Zhang, Haiwen Liu, G. F. Chen, J. Y. Zhang, H. S. Chen, H. L. Dai, Igor Boyko, H. J. Li, L. Koch, A. Khoukaz, M. G. Zhao, Y. H. Yang, X. X. Ma, J. Zhu, Q. L. Xiu, S. J. Zhao, Q. J. Xu, J. C. Chen, Xuanhong Lou, Zongyuan Wang, S. Leiber, Nasser Kalantar-Nayestanaki, C. Morales Morales, Haiping Peng, Q. Ouyang, S. S. Fang, Y. B. Liu, X. L. Luo, K. Begzsuren, Y. H. Zheng, F. Bianchi, Cong-Feng Qiao, N. Yu. Muchnoi, X. S. Kang, Y. H. Zhang, Z. Y. Wang, T. Hussain, X. Y. Ma, W. X. Gong, X. H. Sun, J. Q. Zhang, S. L. Niu, F. Y. Li, X. Q. Li, Y. F. Long, M. Greco, R. Baldini Ferroli, K. Y. Liu, R. P. Guo, Z. B. Li, W. Ikegami Andersson, P. Kiese, S. L. Olsen, R. A. Briere, X. S. Jiang, O. Cakir, T. Y. Qi, Y. X. Xia, S. H. Zhu, G. Y. Tang, Jie Zhao, D. X. Lin, Alexey Zhemchugov, H. M. Hu, J. W. Zhang, I. Uman, S. Nakhoul, P. Larin, X. L. Gao, C. Dong, S. Sosio, and Joachim Pettersson

Subjects
Pseudoscalar, Physics, Particle physics, Exponential decay
Published
2020

28. Study of the D0 → K− μ+ νμ Dynamics and Test of Lepton Flavor Universality with D0→K−l+νl Decays

Author

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

Subjects
Physics, Particle physics, Flavor, Lepton, Universality (dynamical systems)
Published
2020

29. Precise Measurement of the e+e− → π+π−J/ψ Cross Section at Center-of-Mass Energies from 3.77 to 4.60 GeV

Author

S. Han, Haiwen Liu, G. X. Sun, M. Savrie, J. M. Bian, Qun Ouyang, Y.N. Gao, L. Xia, Wolfgang Kuhn, P. F. Duan, A. Calcaterra, X. S. Jiang, Kanglin He, D. Y. Wang, S. H. Zhu, D. P. Jin, Xiao-Rui Lyu, H. Y. Sheng, J. S. Huang, A. Sarantsev, L. H. Wu, M. Tiemens, X. S. Qin, Xian Gao, C. Leng, M. Shao, B. L. Wang, Jianyu Zhang, L. B. Guo, D. H. Wei, E. Fioravanti, P. Musiol, C. F. Redmer, C. Schnier, Zhenyu Zhang, M. Ablikim, Yu Zhang, A. A. Zafar, B. J. Liu, Lei Zhao, X. D. Ruan, Y. J. Sun, Tao Hu, I. Tapan, Jia Liu, I. B. Nikolaev, Ding-Xiong Wang, Q. P. Ji, J. M. Zhang, R. Farinelli, Jie Zhang, L. L. Ma, L. Gong, Jingzhou Zhao, Guangshun Huang, L. Yan, Wang Zengqiang, Niu Xiaoyang, Z. Jiao, Z. J. Sun, H. L. Dai, H. X. Yang, C. Morales Morales, C. L. Luo, J. Z. Bai, Zhiqing Liu, Yuanbo Chen, Z. P. Mao, Y. P. Guo, Y. S. Zhu, Y. B. Liu, F. Feldbauer, Z. Y. You, H. H. Liu, X. L. Ji, H. H. Zhang, Michela Greco, Guangyu Zhao, J. W. Zhao, Jie Zhao, Gang Li, G. S. Varner, M. G. Zhao, Bibo Ke, Jia Xu, L. Zotti, Yuekun Heng, H. Muramatsu, J.H. Yin, H. Xiao, Hao Liang, Krisztian Peters, A. Amoroso, M. Wolke, B. Zhong, E. Boger, Lei Xu, Yongke Zhao, M. Fritsch, X. Y. Ma, Minglin Ma, L. G. Xia, M. N. Achasov, L. Yang, Xinying Song, P. Wang, D. J. Ambrose, I. Denysenko, Giulietto Felici, S. Pacetti, Xuan Zhang, N. Kalantar-Nayestanaki, Jie Liu, A. Yuncu, Chang-Zheng Yuan, Y. J. Mo, J. G. Messchendorp, Jin Li, Yingchun Zhu, M. Pelizaeus, Xiaocong Ai, Q. L. Xiu, Y. F. Wang, O. B. Kolcu, F. F. An, Y. H. Guan, F. Y. Li, R. Baldini Ferroli, A. Q. Guo, L. Fava, L. Zhang, X. R. Chen, H. Loehner, Y. F. Liang, Ming-Xing Luo, Jiajun Zheng, L. L. Wang, M. Destefanis, H. S. Chen, G. Rong, Y. T. Gu, B. Wang, J. F. Hu, T. Weber, H. Y. Zhang, Jianhao Zhang, M. Albrecht, Zheng Wang, Jianbei Liu, W. Shan, Dan Bennett, Ming Qi, X. Q. Hao, Z. Wu, Jianguo Zhang, O. Albayrak, G. A. Chelkov, Z. H. Qin, O. Bakina, M. H. Ye, S. Marcello, Talib Hussain, R. A. Briere, A. Julin, I. Uman, Chen Hu, J. F. Chang, X. K. Zhou, Y. Q. Wang, Yun-Zhi Zhang, Y. P. Lu, W. M. Song, Zhi Zeng, Y. N. Zhang, Qiang Zhao, S. Nisar, Meng Wang, X. S. Kang, Zhanwen Zhu, T. Held, Y. H. Yan, Wu Li, Xiang Li, Zhengguo Zhao, Feng Liu, Ling Zhao, Y. Ma, B. Kopf, D. M. Li, Y. Hu, T. Ma, M. Ripka, P. X. Shen, Wenbiao Yan, Kai Liu, Cunming Liu, Cui Li, N. Yu. Muchnoi, H. Cai, P. Weidenkaff, Yanwei Wang, L. D. Liu, Hong Ma, B. Y. Zhang, L. W. Jiang, Tiefu Zhao, G. Mezzadri, W. C. Yan, Xin Fang, R. Poling, G. R. Liao, X. W. Tang, S. L. Niu, M. Kornicer, Changjian Tang, X. H. Mo, W. P. Wang, Zhiqing Zhang, S. Spataro, S. S. Fang, Jingzhou Fan, D. Xiao, Li Zhou, Y. G. Xie, Yunpeng Lu, X. P. Xu, R. E. Mitchell, Y. Xia, X. K. Chu, W. J. Zheng, Shujun Zhao, J. F. Sun, Q. A. Malik, B. Kloss, D. H. Zhang, Y. Nefedov, Z. L. Dou, R. P. Guo, J. Liu, X. Y. Jiang, L. Q. Qin, F. Nerling, Zhao-Long Wang, K. Zhang, J. Lange, M. Bertani, F. A. Harris, Z. Y. Deng, M. H. Gu, W. Ikegami Andersson, X. Z. Cai, Yong Liu, D. Bettoni, Tord Johansson, C. Dong, H. J. Lu, Cunfeng Feng, Yi Fang, L. Lavezzi, K. H. Rashid, H. M. Hu, N. Qin, Lei Li, P. R. Li, Orhan Cakir, S. Sosio, Jiemin Li, Y. Z. Sun, J. L. Ping, W. X. Gong, Z. L. Hou, U. Wiedner, G. F. Xu, P. Kiese, G. Cibinetto, Siyuan Sun, Jia-ju Zhang, P. L. Liu, X. L. Luo, Y. Zhang, Zahra Haddadi, Qingnian Xu, Xiaozhong Huang, Ye-Fei Yuan, F. C. Ma, A. Denig, H. B. Liu, S. B. Liu, X. Y. Shen, Z. Gao, Mingshui Chen, Y. Pan, X. L. Kang, Q. J. Xu, Ch. Rosner, Q. W. Zhao, J. Chai, Xu Zhou, Ka-Yuet Liu, Joachim Pettersson, Andrzej Kupsc, X. C. Lou, Zhen Wang, Yiming Zhang, H. B. Li, F. De Mori, Shou-hua Zhu, Z. Liu, Fu-Hu Liu, L. J. Wu, Y. Zeng, P. Larin, F. E. Maas, W. F. Wang, S. X. Du, Cen Zhang, Teng Li, B. S. Zou, W. Gradl, X. L. Li, C. F. Qiao, J. P. Dai, S. Ahmed, Y. X. Yang, K. Schoenning, Q. Y. Li, J. V. Bennett, Niklaus Berger, K. Li, X. N. Ma, Jianbin Jiao, Y. Ding, L. S. Wang, Y. T. Liang, B. X. Yu, A. Hafner, X. H. Sun, Dmitri Dedovich, Xiang Zhou, Z. B. Li, K. Goetzen, I. Boyko, H. P. Peng, I. Garzia, B. X. Zhang, S. Z. Chen, Y. J. Mao, M. Kavatsyuk, T. Holtmann, G. F. Cao, E. H. Thorndike, Q. Gao, Fabrizio Bianchi, Q. An, J. Y. Zhang, Yuehong Xie, A. Zhemchugov, S. P. Wen, X. B. Ji, Y. Guo, Xingtao Huang, M. Y. Dong, Y. B. Li, Qingming Ma, Kai Zhu, Z. L. Huang, J. C. Chen, S. Qian, Xiang Liu, Xiaoyu Li, Jiaheng Zou, Chunxu Yu, T. J. Min, T. Luo, Junguang Lu, M. Maggiora, J. S. Yu, R. Kliemt, Guo-Ming Chen, H. Leithoff, Qi Liu, X. D. Chen, Y. H. Zheng, Fang Liu, Bingxuan Liu, H. J. Li, M. Ye, S. Jin, S. L. Olsen, C. P. Shen, Sai-Juan Chen, Jian Zhuang, M. Lara, Y. D. Wang, Wei Li, R. G. Ping, Hongji Yang, Kejun Zhu, Zhiyong Zhang, H. R. Qi, Z. J. Xiao, J. Min, C. D. Fu, Serkant Ali Cetin, P. Patteri, D. Y. Liu, Jianmin Dong, Jian Fang, Yong Ban, J. F. Qiu, S. Q. Zhang, Z. Ning, D. X. Lin, Xuejun Wang, Kai Wang, B. Zheng, Z. T. Sun, V. Prasad, L. Y. Dong, Xianglei Zhu, F. H. Heinsius, X. R. Zhou, Cheng Li, and A. Dbeyssi

Subjects
Nuclear physics, Physics, Cross section (physics), Sigma, Center of mass, Resonance (particle physics), Belle experiment, Storage ring
Abstract

The cross section for the process e(+)e(-)-> pi(+) pi(-) J/psi is measured precisely at center-of-mass energies from 3.77 to 4.60 GeV using 9 fb(-1) of data collected with the BESIII detector operating at the BEPCII storage ring. Two resonant structures are observed in a fit to the cross section. The first resonance has a mass of (222.0 +/- 3.1 +/- 1.4) MeV/ c(2) and a width of (44.1 +/- 4.3 +/- 2.0)MeV, while the second one has a mass of (4320.0 +/- 10.4 +/- 7.0)MeV/c(2) and a width of (101.4(- 19.7)(+25.3) +/- 10.2) MeV, where the first errors are statistical and second ones are systematic. The first resonance agrees with the Y(4260) resonance reported by previous experiments. The precision of its resonant parameters is improved significantly. The second resonance is observed in e(+)e(-)-> pi(+) pi(-) J/psi for the first time. The statistical significance of this resonance is estimated to be larger than 7.6 sigma. The mass and width of the second resonance agree with the Y(4360) resonance reported by the BABAR and Belle experiments within errors. Finally, the Y(4008) resonance previously observed by the Belle experiment is not confirmed in the description of the BESIII data.

Published
2020

30. Positive-Parity Linear-Chain Molecular Band in C16

Author

Jian-Ling Lou, S. W. Bai, Peng-Xiong Ma, L. Y. Hu, Z. H. Li, Y. C. Ge, F. F. Duan, K. Ma, Yanzhao Liu, Xiaofei Yang, Shenglin Huang, Yan-Lin Ye, Biao Yang, Zhangfeng Gao, H. Y. Wu, J. Y. Xu, X. H. Sun, J. H. Tan, H. L. Zang, Y. S. Song, T. Baba, Ying Jiang, Haiming Yu, J. S. Wang, Jian Li, Jiequn Han, S. Q. Sun, Ji Feng, Yichen Yang, L. C. Tao, Qingyang Hu, Gang Li, Ziyang Chen, Z. Bai, Hui Hua, Z. W. Tan, Q. Li, Masaaki Kimura, and Wenbin Liu

Subjects
Physics, Angular correlation, 0103 physical sciences, General Physics and Astronomy, Resonance, Parity (physics), Atomic physics, 010306 general physics, 01 natural sciences, Spectral line, Excitation
Abstract

An inelastic excitation and cluster-decay experiment ^{2}H(^{16}C,^{4}He+^{12}Be or ^{6}He+^{10}Be)^{2}H was carried out to investigate the linear-chain clustering structure in neutron-rich ^{16}C. For the first time, decay paths from the ^{16}C resonances to various states of the final nuclei were determined, thanks to the well-resolved Q-value spectra obtained from the threefold coincident measurement. The close-threshold resonance at 16.5 MeV is assigned as the J^{π}=0^{+} band head of the predicted positive-parity linear-chain molecular band with (3/2_{π}^{-})^{2}(1/2_{σ}^{-})^{2} configuration, according to the associated angular correlation and decay analysis. Other members of this band were found at 17.3, 19.4, and 21.6 MeV based on their selective decay properties, being consistent with the theoretical predictions. Another intriguing high-lying state was observed at 27.2 MeV which decays almost exclusively to ^{6}He+^{10}Be(∼6 MeV) final channel, corresponding well to another predicted linear-chain structure with the pure σ-bond configuration.

Published
2020

31. Positive-parity linear-chain molecular band in $^{16}$C

Author

Y, Liu, Y L, Ye, J L, Lou, X F, Yang, T, Baba, M, Kimura, B, Yang, Z H, Li, Q T, Li, J Y, Xu, Y C, Ge, H, Hua, J S, Wang, Y Y, Yang, P, Ma, Z, Bai, Q, Hu, W, Liu, K, Ma, L C, Tao, Y, Jiang, L Y, Hu, H L, Zang, J, Feng, H Y, Wu, J X, Han, S W, Bai, G, Li, H Z, Yu, S W, Huang, Z Q, Chen, X H, Sun, J J, Li, Z W, Tan, Z H, Gao, F F, Duan, J H, Tan, S Q, Sun, and Y S, Song

Subjects
FOS: Physical sciences, Nuclear Experiment (nucl-ex), Nuclear Experiment
Abstract

An inelastic excitation and cluster-decay experiment $\rm {^2H}(^{16}C,~{^{4}He}+{^{12}Be}~or~{^{6}He}+{^{10}Be}){^2H}$ was carried out to investigate the linear-chain clustering structure in neutron-rich $\rm {^{16}C}$. For the first time, decay-paths from the $\rm {^{16}C}$ resonances to various states of the final nuclei were determined, thanks to the well-resolved $Q$-value spectra obtained from the three-fold coincident measurement. The close-threshold resonance at 16.5 MeV is assigned as the ${J^\pi}={0^+}$ band head of the predicted positive-parity linear-chain molecular band with ${(3/2_\pi^-)^2}{(1/2_\sigma^-)^2}$ configuration, according to the associated angular correlation and decay analysis. Other members of this band were found at 17.3, 19.4, and 21.6 MeV based on their selective decay properties, being consistent with the theoretical predictions. Another intriguing high-lying state was observed at 27.2 MeV which decays almost exclusively to $\rm {^{6}He}+{^{10}Be{(\sim6~ MeV)}}$ final channel, corresponding well to another predicted linear-chain structure with the pure $\sigma$-bond configuration., Comment: 6 pages, 4 figures

Published
2020

32. Determination of the cluster-decay branching ratio from a near-threshold molecular state in Be10

Author

Q. Liu, Y. Zhang, Li-Jie Sun, Xiaofei Yang, H. L. Zang, Wei Jiang, P. J. Li, Jixue Li, Y. C. Ge, Z. H. Li, J. B. Ma, J. Feng, Zaihong Yang, Chen Zhen, X. H. Sun, B. Yang, N. R. Ma, Jin-Da Chen, Y. Liu, Q. Li, Yan-Lin Ye, L. Yang, Zhengyang Tian, X. X. Xu, Dongxing Jiang, Jian-Ling Lou, Hui Hua, Dan-Yang Pang, Hui-Ming Jia, and Cheng-Jian Lin

Subjects
Physics, Cluster decay, 010308 nuclear & particles physics, Branching fraction, State (functional analysis), 01 natural sciences, Measure (mathematics), Molecular physics, Near threshold, Coincident, 0103 physical sciences, Content (measure theory), 010306 general physics, Beam energy
Abstract

A puzzle has long existed for the α-cluster content in the near-threshold 7.54-MeV state of Be10. A new measurement was conducted to measure the cluster-decay partial width of this state using the reaction Be9(Be9,Be*10→α+He6)Be8 at 45-MeV beam energy. Special measures were taken to reduce the strong near-threshold background. The neutron-decay strength was also obtained based on the threefold coincident measurement. A cluster-decay branching ratio of (4.04±1.26)×10−4 is obtained, resulting in a reasonably large α-cluster spectroscopic factor. The present Rapid Communication confirms the formation of the σ-bond molecular rotational band headed by the 6.18-MeV state in Be10.

Published
2020

33. Partial wave analysis of ψ(3686)→K+K−η

Author

Y. H. Zheng, Cong-Feng Qiao, G. Y. Tang, M. Qi, H. J. Yang, N. Yu. Muchnoi, S. Qian, P. W. Luo, Q. An, Jialun Ping, Y. H. Xie, Jie Zhao, X. S. Kang, S. J. Zhao, M. Kuemmel, Matthew Glenn Kurth, B. J. Liu, Y. H. Zhang, K. Zhang, D. X. Lin, Zhang Li, X. Y. Zhang, X. L. Wang, Alexey Zhemchugov, H. M. Hu, M. Maggiora, Ling Zhao, S. L. Olsen, Y. Fu, F. H. Liu, X. F. Cui, J. B. Liu, Nicolas Berger, Y. H. Yan, Y. J. Sun, Yifan Yang, Fang Liu, Lei Zhao, Z. Y. Wang, Teresa Lenz, J. D. Lu, Z. L. Hou, V. Rodin, Q. J. Xu, U. Wiedner, I. Denysenko, J. W. Zhao, X. T. Huang, J. W. Zhang, G. Rong, Y. P. Lu, X. P. Xu, X. B. Ji, Q. Liu, Tristan Weber, Z. X. Meng, X. A. Xiong, J. C. Chen, Xuanhong Lou, L. H. Wu, M. Savrie, Yi Jin, A. A. Zafar, J. W. Li, Y. C. Zhu, R. M. Wang, Y. J. Xiao, P. Patteri, R. Kappert, Tao Luo, M. Richter, Viktor Thorén, G. S. Huang, K. H. Rashid, Nasser Kalantar-Nayestanaki, L. L. Ma, L. Gong, Y. T. Liang, Z. Ning, S. Y. Xiao, F. Li, B. Y. Zhang, S. J. Chen, C. Morales Morales, C. Z. Yuan, N. Cao, L. J. Wu, W. J. Zhu, X. D. Shi, Dan Wang, H. Liang, Lingxuan Zhang, T. Held, S. Gu, F. C. Ma, Yue Pan, I. Balossino, A. Calcaterra, Z. G. Zhao, Q. P. Ji, L. G. Xia, A. Amoroso, L. Z. Liao, X. L. Ji, X. Q. Hao, S. Nakhoul, Y. Schelhaas, W. Imoehl, I. Uman, A. Dbeyssi, G. F. Xu, B. X. Yu, S. Jin, H. R. Qi, Q. Q. Song, Y. J. Mo, Huanhuan Liu, G. Wilkinson, X. P. Qin, W. S. Cheng, Yao Zhang, G. Felici, Jun-Yi Zhang, G. Li, X. K. Zhou, X. N. Ma, X. H. Liu, J. Min, Angelo Rivetti, S. L. Yang, P. Larin, Xujin Yuan, J. P. Dai, F. De Mori, Y. P. Guo, Z. J. Xiao, X D Shi, Bibo Ke, F. F. Sui, M. H. Gu, Z. Y. Zhang, R. Kiuchi, G. R. Liao, Serkant Ali Cetin, H. Y. Sheng, Shulei Zhang, Y. J. Mao, T. Liu, J. F. Qiu, M. Papenbrock, F. Y. Li, C. D. Fu, C. Q. Feng, H. B. Liu, Xiang-Gan Liu, W. B. Yan, Z. Y. Deng, S. Pacetti, L. Fava, D. Y. Liu, M. Albrecht, I. R. Boyko, H. S. Chen, Alperen Yuncu, J. B. Jiao, F. Nerling, H. X. Yang, T. Y. Qi, S. B. Liu, B. Kopf, M. G. Zhao, Y. H. Yang, X. X. Ma, R. P. Guo, J. Zhu, I. Garzia, Ke Liu, Liqing Xu, J. Libby, Yaquan Fang, M. Greco, Shou-hua Zhu, Y. G. Xie, Li Zhou, Yang Zhang, Zhiqing Liu, M. Himmelreich, T. Johansson, J. F. Chang, H. J. Li, X. H. Li, Y. Nefedov, Q. L. Xiu, Yu Bai, H. H. Zhang, N. Huesken, W. D. Li, B. T. Tsednee, X. Y. Song, K. Goetzen, X. Y. Shen, Y. F. Wang, Y. Ding, Y. X. Xia, T. Yu, K. L. He, M. Kuessner, S. W. Han, M. Z. Wang, Jimin Zhao, P. L. Li, X. F. Wang, H. L. Dai, Ke Wang, T. Y. Xing, D. Y. Chen, Q. M. Ma, A. Mustafa, B. Garillon, Ke Li, M. Y. Dong, W. Kühn, Z. J. Sun, C. X. Yu, B. Zheng, R. G. Ping, Z. A. Liu, V. Prasad, O. B. Kolcu, Zujian Wang, X. Cai, L. Lavezzi, Z. L. Dou, Xingchao Dai, E. M. Gersabeck, X. L. Luo, C. F. Redmer, R. Poling, J. F. Sun, F. H. Heinsius, Fenfen An, Z. G. Wang, H. Y. Zhang, Z. Y. You, Z. A. Zhu, K. Schoenning, Q. Y. Li, B. S. Zou, B. Wang, M. Fritsch, M. Kavatsyuk, Y. Yuan, Y. S. Zhu, Yu Zhang, J. H. Zou, Y. G. Gao, G. F. Chen, J. Y. Zhang, M. Bertani, B. L. Wang, Xiao-Rui Lyu, Huihui Liu, S. Marcello, T. C. Zhao, Y. Zeng, Y. J. Lin, Zhe Sun, J. G. Messchendorp, G. A. Chelkov, S. S. Sun, Q. A. Malik, G. Mezzadri, S. Lusso, K. Begzsuren, W. C. Yan, Magnus Wolke, Y. Ban, P. Weidenkaff, S. P. Wen, X. S. Qin, X. R. Zhou, Cheng Li, R. Kliemt, A. Mangoni, L. Yang, A. Guskov, W. P. Wang, S. Maldaner, F. Bianchi, Y. F. Liang, Jie Yu, D. P. Jin, C. P. Shen, L. M. Gu, H. W. Wen, L. Koch, A. Khoukaz, M. N. Achasov, Y. B. Chen, L. P. Zhou, R. E. Mitchell, Xiaofeng Zhu, J. Z. Zhang, Y. M. Ma, J. C. Li, T. J. Min, K. J. Zhu, J. J. Song, R. Baldini Ferroli, Y. K. Heng, M. M. Ma, B. X. Zhang, L. Sun, Z. P. Mao, N. Qin, W. G. Li, A. G. Denig, Y. K. Sun, J. J. Xu, Xiaoyu Zhou, G. Cibinetto, Y. T. Tan, W. Gradl, Krisztian Peters, S. Malde, J. Zhuang, J. Bloms, Z. Q. Yang, J. Fang, Xiaozhong Huang, L. Y. Liu, M. X. Luo, S. Spataro, Ch. Rosner, J. S. Huang, Zongyuan Wang, X. N. Li, Haiping Peng, D. V. Dedovich, Xu Zhou, C. X. Liu, Andrzej Kupsc, Lei Li, H. M. Liu, J. F. Hu, J. Chai, G. X. Sun, J. V. Bennett, Li Yan, Q. Ouyang, M. L. Chen, G. F. Cao, S. S. Fang, F. Feldbauer, A. Q. Guo, C. W. Wang, Y. B. Liu, H. B. Li, C. L. Luo, Q. Zhou, Feng Liu, C. C. Zhang, B. Zhong, L. B. Guo, M. Ablikim, Z. H. Qin, M.G. Alekseev, X. Y. Jiang, A. N. Zhu, Tao Zhang, Xu Shan, I. B. Nikolaev, J. H. Yin, M. Shao, Y. T. Gu, A. Sarantsev, D. H. Wei, P. R. Li, J. S. Lange, M. H. Ye, L. Y. Dong, X. H. Mo, L. S. Wang, L. L. Wang, H. Cai, Jacek Biernat, Z. Jiao, D. H. Zhang, X. Tang, M. Rolo, C. Sowa, Y. B. Zhao, F. Cossio, X. L. Gao, C. Dong, S. Sosio, W. Shan, J. Dong, Joachim Pettersson, Yunlong Zhang, D. Bettoni, J. L. Zhang, H. L. Jiang, Jianping Zheng, S. X. Du, K. Y. Liu, M. Destefanis, S. Nisar, C. J. Tang, Y. Hu, J. Q. Zhang, H. J. Lu, J. G. Lu, P. L. Wang, Meng Wang, Muhammad Irshad, F. E. Maas, T. Hu, F. A. Harris, W. L. Chang, Z. P. Zhang, H. Leithoff, J. Y. Liu, X. L. Li, O. Bakina, Q. Gao, Y. N. Gao, Y. Zhang, Feng Yan, J. Z. Fan, P. X. Shen, Z. Wu, R. Farinelli, H. L. Ma, D. M. Li, Zhiqing Zhang, H. Muramatsu, M. Pelizaeus, S. Ahmed, Y. X. Yang, Q. Zhao, Y. Z. Sun, I. K. Keshk, C. X. Lin, Alexander Leon Gilman, M. Rump, Gang Zhao, Z. Gao, S. L. Niu, Y. F. Long, K. Ravindran, Yi Zhang, S. Q. Qu, Z. B. Li, W. Ikegami Andersson, T. Hussain, X. Y. Ma, W. X. Gong, C. H. Li, X. H. Sun, P. Kiese, Yuan Hou, R. A. Briere, X. S. Jiang, R. X. Yang, Wei Xu, A. Pitka, and P. Adlarson

Subjects
Physics, 010308 nuclear & particles physics, Branching fraction, Partial wave analysis, 0103 physical sciences, Resonance, State (functional analysis), Atomic physics, 010306 general physics, 01 natural sciences
Abstract

Using a sample of (448.1±2.9)×106 ψ(3686) events collected with the BESIII detector, we perform the first partial wave analysis of ψ(3686)→K+K-η. In addition to the well established states, ϕ(1020), ϕ(1680), and K3*(1780), contributions from X(1750), ρ(2150), ρ3(2250), and K2*(1980) are also observed. The X(1750) state is determined to be a 1-- resonance. The simultaneous observation of the ϕ(1680) and X(1750) indicates that the X(1750), with previous observations in photoproduction, is distinct from the ϕ(1680). The masses, widths, branching fractions of ψ(3686)→K+K-η, and the intermediate resonances are also measured.

Published
2020

34. LncRNA TRERNA1 promotes malignant progression of NSCLC through targeting FOXL1

Author

D-B, Luo, H-B, Lv, X-H, Sun, Y, Wang, J-H, Chu, and A-L, Salai

Subjects
Male, Lung Neoplasms, A549 Cells, Carcinoma, Non-Small-Cell Lung, Disease Progression, Humans, Female, Forkhead Transcription Factors, RNA, Long Noncoding, Middle Aged, Aged
Abstract

Previous studies have shown the carcinogenic role of long-chain non-coding RNAs (lncRNA) TRERNA1. However, the role of TRERNA1 in non-small cell lung cancer (NSCLC) has not been reported. This research aims to explore the regulatory effect of TRERNA1/FOXL1 axis on the malignant progression of NSCLC.Quantitative Real Time-Polymerase Chain Reaction (qRT-PCR) was performed to examine the expression levels of TRERNA1 and FOXL1 in 39 pairs of tumor tissues and paracancerous ones collected from NSCLC patients. The potential relation between TRERNA1 expression and clinical indicators of NSCLC patients was analyzed. Meanwhile, expression levels of TRERNA1 and FOXL1 in NSCLC cell lines were also detected by qRT-PCR. In addition, TRERNA1 knockdown model was constructed in H358 and SPC-A1 cells. Cell counting kit-8 (CCK-8), cell colony formation assay, and flow cytometry were applied to analyze the influence of TRERNA1 on NSCLC cell biological functions. Finally, Dual-Luciferase reporter gene assay and cell reverse recovery experiments were performed to figure out the underlying mechanisms of TRERNA1 in regulating NSCLC progression.QRT-PCR results indicated that the expression level of lncRNA TRERNA1 in tumor tissue samples of NSCLC patients was remarkably higher than that in adjacent tissues. Compared with NSCLC patients with low expression of TRERNA1, patients with high TRERNA1 expression had a worse pathological stage and overall survival. Similarly, compared with cells in sh-NC group, the proliferation ability of cells in sh-TRERNA1 group was remarkably attenuated. In addition, cell ratio in the G1 phase increased after knockdown of TRERNA1, suggesting the arrested G1/S cell cycle. Subsequently, FOXL1 was downregulated in NSCLC cell lines and tumor tissues. Meanwhile, FOXL1 level was verified to be negatively correlated with TRERNA1 level. Additionally, the binding between TRERNA1 and FOXL1 was confirmed by Dual-Luciferase reporter gene assay. Cell reverse investigation indicated the involvement of FOXL1 in TRERNA1-regulated malignant progression of NSCLC.LncRNA TRERNA1 was up-regulated both in NSCLC tissues and cell lines. Its level was associated with pathological stage and poor prognosis in NSCLC. In addition, lncRNA TRERNA1 could promote the malignant progression of NSCLC via modulating FOXL1.

Published
2020

35. Cross section measurement of e+e−→η′J/ψ from s=4.178 to 4.600 GeV

Author

S. Qian, Q. An, Jialun Ping, H. Liang, K. Zhang, X. Y. Zhang, Q. P. Ji, X. L. Wang, J. B. Liu, J. J. Xu, Z. Q. Yang, M. Qi, H. J. Yang, Y. J. Sun, Yifan Yang, Fang Liu, U. Wiedner, Y. P. Lu, I. Denysenko, X. L. Ji, F. De Mori, Ke Liu, J. S. Huang, Ke Wang, X. N. Ma, B. Y. Zhang, Z. Y. Zhang, C. X. Liu, M. Richter, S. Ahmed, Y. X. Yang, Z. Ning, S. Y. Xiao, M. H. Ye, Q. Zhao, Y. Z. Sun, I. K. Keshk, C. X. Lin, Alexander Leon Gilman, M. Rump, Gang Zhao, Cheng Li, J. Y. Liu, D. Y. Liu, Z. X. Meng, J. B. Jiao, B. Wang, Q. Gao, Y. N. Gao, Y. Zhang, X. A. Xiong, Feng Yan, R. Poling, J. Z. Fan, A. A. Zafar, J. Libby, Y. G. Xie, M. Fritsch, R. Kappert, M. M. Ma, L. Y. Dong, X. F. Wang, M. Kavatsyuk, F. H. Heinsius, R. Farinelli, X. K. Zhou, Y. H. Zheng, Cong-Feng Qiao, F. Li, H. L. Ma, Q. M. Ma, A. Mustafa, Fenfen An, D. M. Li, M. Albrecht, H. Muramatsu, Yaquan Fang, M. Greco, Li Zhou, Shou-hua Zhu, M. Pelizaeus, A. Calcaterra, Z. G. Zhao, F. C. Ma, L. Z. Liao, B. L. Wang, Yu Bai, H. H. Zhang, N. Yu. Muchnoi, W. G. Li, A. G. Denig, M. Himmelreich, Y. K. Sun, Xiaoyu Zhou, G. F. Xu, Bibo Ke, K. Schoenning, B. S. Zou, W. B. Yan, M. Kuessner, T. C. Zhao, G. Wilkinson, S. Jin, Xujin Yuan, F. F. Sui, M. H. Gu, S. Spataro, W. S. Cheng, Yao Zhang, G. Li, Magnus Wolke, B. X. Zhang, Y. F. Liang, D. P. Jin, Z. J. Sun, Q. A. Malik, G. Mezzadri, W. C. Yan, X. S. Kang, R. Kiuchi, H. Y. Sheng, Tao Luo, W. D. Li, B. T. Tsednee, E. M. Gersabeck, S. Maldaner, J. Chai, G. X. Sun, J. V. Bennett, Li Yan, Y. H. Zhang, S. Pacetti, N. Huesken, C. X. Yu, T. Liu, G. A. Chelkov, L. M. Gu, M. N. Achasov, L. P. Zhou, Lei Li, C. D. Fu, H. B. Li, C. Q. Feng, Zhiqing Liu, Z. Jiao, Y. X. Xia, S. B. Liu, S. L. Olsen, J. F. Qiu, M. Papenbrock, B. X. Yu, D. H. Zhang, Y. Ding, T. Yu, C. L. Luo, H. M. Liu, Y. M. Ma, Z. Y. Deng, Q. Zhou, Ke Li, Y. Nefedov, L. Fava, Z. P. Mao, B. Zheng, X. Y. Song, Y. H. Xie, X. L. Luo, J. F. Hu, Z. Y. Wang, B. J. Liu, M. Y. Dong, Teresa Lenz, C. C. Zhang, R. G. Ping, B. Zhong, L. B. Guo, I. B. Nikolaev, J. Fang, Z. L. Dou, T. Johansson, J. F. Chang, M. Maggiora, Ling Zhao, P. Kiese, Shulei Zhang, Y. Schelhaas, F. Nerling, R. Kliemt, Z. A. Liu, I. Uman, M.G. Alekseev, T. Y. Xing, D. Y. Chen, G. F. Cao, Yuan Hou, J. H. Yin, Jun-Yi Zhang, Lei Zhao, M. Shao, Y. T. Gu, C. X. Yue, Y. F. Wang, W. Imoehl, A. Mangoni, H. S. Chen, Alperen Yuncu, J. H. Zou, A. N. Zhu, A. Guskov, V. Prasad, Tao Zhang, Z. L. Hou, O. B. Kolcu, X D Shi, Jie Yu, Y. G. Gao, J. Q. Zhang, K. Goetzen, X. H. Liu, Y. Ban, P. Weidenkaff, Ch. Rosner, X. Cai, Y. J. Mao, L. Lavezzi, Xiao-Rui Lyu, H. L. Dai, Z. J. Xiao, Yang Zhang, S. S. Sun, H. X. Yang, S. P. Wen, X. Q. Hao, T. J. Min, K. J. Zhu, W. Kühn, Q. Q. Song, R. A. Briere, A. Sarantsev, Matthew Glenn Kurth, D. H. Wei, P. R. Li, S. Nakhoul, Xu Shan, I. Garzia, X. S. Qin, G. Cibinetto, X. R. Zhou, J. C. Li, C. Z. Yuan, N. Cao, J. S. Lange, J. P. Dai, Z. Y. You, P. W. Luo, L. Koch, A. Khoukaz, Y. P. Guo, Zujian Wang, Z. A. Zhu, K. Begzsuren, J. Zhuang, Zhang Li, Xiaozhong Huang, R. E. Mitchell, P. Larin, R. Baldini Ferroli, M. X. Luo, B. Garillon, Huihui Liu, F. Feldbauer, D. V. Dedovich, X. S. Jiang, J. Bloms, Serkant Ali Cetin, W. P. Wang, X. H. Mo, L. S. Wang, Xu Zhou, Krisztian Peters, S. Malde, M. Z. Wang, V. Rodin, Feng Liu, Andrzej Kupsc, F. Bianchi, X. P. Xu, X. B. Ji, P. L. Wang, Meng Wang, Muhammad Irshad, L. L. Wang, H. Cai, J. G. Messchendorp, M. L. Chen, M. Ablikim, G. Y. Tang, C. P. Shen, Jacek Biernat, P. Patteri, Yunlong Zhang, X. N. Li, X. Y. Jiang, C. Sowa, Y. B. Zhao, L. J. Wu, Jie Zhao, D. X. Lin, W. Shan, Haiping Peng, D. Bettoni, Alexey Zhemchugov, H. M. Hu, R. X. Yang, J. Dong, Y. J. Mo, Y. Yuan, Y. S. Zhu, Yu Zhang, F. H. Liu, A. Q. Guo, C. W. Wang, Nicolas Berger, Wei Xu, J. W. Zhang, F. A. Harris, W. L. Chang, A. Pitka, Y. Fu, P. Adlarson, Z. P. Zhang, H. Leithoff, Q. Liu, Tristan Weber, L. L. Ma, L. Gong, S. Nisar, C. J. Tang, Y. Hu, Y. H. Yan, J. W. Zhao, J. L. Zhang, Xiang-Gan Liu, H. L. Jiang, L. G. Xia, A. Amoroso, S. L. Niu, J. B. Zhao, A. Dbeyssi, Y. C. Zhu, L. Y. Liu, Y. F. Long, Z. H. Qin, K. Ravindran, I. R. Boyko, M. G. Zhao, Y. H. Yang, X. X. Ma, R. P. Guo, J. Zhu, Angelo Rivetti, Jianping Zheng, Liqing Xu, Zongyuan Wang, X. Y. Shen, T. Held, Yi Zhang, K. H. Rashid, K. Y. Liu, F. Weidner, S. X. Du, Y. T. Liang, S. J. Chen, L. H. Wu, M. Savrie, Yi Jin, S. Q. Qu, Z. B. Li, R. M. Wang, Y. J. Xiao, W. Ikegami Andersson, Z. G. Wang, J. D. Lu, H. Y. Zhang, Y. Q. Wang, Q. Ouyang, X. T. Huang, G. Rong, S. S. Fang, T. Hussain, G. F. Chen, J. Y. Zhang, H. W. Wen, Y. B. Liu, Huanhuan Liu, X. Y. Ma, W. X. Gong, C. H. Li, X. H. Sun, M. Destefanis, X. L. Gao, C. Dong, S. Sosio, G. Felici, Y. K. Heng, S. J. Zhao, H. J. Li, X. H. Li, Q. L. Xiu, S. L. Yang, Q. J. Xu, Xingchao Dai, G. R. Liao, J. C. Chen, Xuanhong Lou, Viktor Thorén, Nasser Kalantar-Nayestanaki, C. Morales Morales, Yue Pan, J. Min, I. Balossino, J. F. Sun, H. B. Liu, Joachim Pettersson, S. Marcello, B. Kopf, Y. Zeng, Y. J. Lin, Zhe Sun, S. Lusso, K. L. He, S. W. Han, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, J. J. Song, L. Sun, X. Tang, Jimin Zhao, P. L. Li, H. J. Lu, J. G. Lu, M. Kuemmel, M. Rolo, X. F. Cui, C. F. Redmer, G. S. Huang, W. J. Zhu, X. D. Shi, M. Bertani, Dan Wang, S. Gu, L. Yang, F. Cossio, F. E. Maas, T. Hu, X. L. Li, Y. T. Tan, W. Gradl, O. Bakina, P. X. Shen, Z. Wu, Zhiqing Zhang, Lingxuan Zhang, and X. P. Qin

Subjects
Nuclear physics, Physics, 010308 nuclear & particles physics, Electron–positron annihilation, 0103 physical sciences, Detector, 010306 general physics, 01 natural sciences, Storage ring
Abstract

The cross section of the process e+e-→η′J/ψ is measured at center-of-mass (c.m.) energies from s=4.178 to 4.600 GeV using data samples corresponding to a total integrated luminosity of 11 fb-1 collected with the BESIII detector operating at the BEPCII storage ring. The dependence of the cross section on s shows an enhancement around 4.2 GeV. While the shape of the cross section cannot be fully explained with a single ψ(4160) or ψ(4260) state, a coherent sum of the two states does provide a reasonable description of the data.

Published
2020

36. [Rational application of lens extraction for primary angle-closure glaucoma]

Author

J Y, Chen, X H, Sun, and X L, Chen

Subjects
Lenses, Intraocular, China, Phacoemulsification, Treatment Outcome, Lens Implantation, Intraocular, Humans, Glaucoma, Angle-Closure, Cataract, Intraocular Pressure
Abstract

Primary angle-closure glaucoma (PACG) is the most common type of glaucoma in China. In recent years, lens extraction has gradually become one of the main means of PACG treatment. However, there are still some problems in specific applications. In this article, we analyze the problems and misunderstandings in lens extraction for treatment of PACG in China at present, hoping to achieve reasonable application and better serve patients with glaucoma.原发性闭角型青光眼(PACG)是我国最常见的青光眼类型。近年来晶状体摘除手术已逐渐成为PACG的治疗方法之一。本文针对现阶段我国晶状体摘除手术在PACG治疗中存在的问题及误区,提出应根据房角关闭的不同机制合理选择治疗方法,正确看待透明晶状体摘除术在PACG治疗中的作用,注意我国与西方国家医疗体系的差异以及联合房角分离术或滤过性手术的效果,以期指导临床合理应用晶状体摘除手术治疗PACG,达到为青光眼患者提供优质服务的目的。(中华眼科杂志,

Published
2020

37. [Analysis on the health literacy of the cancer prevention and treatment and its related factors among urban residents in China from 2015 to 2017]

Author

P, Dong, J F, Shi, W Q, Qiu, C C, Liu, K, Wang, H Y, Huang, D B, Wang, G X, Liu, X Z, Liao, Y N, Bai, X J, Sun, J S, Ren, L, Yang, D H, Wei, B B, Song, H K, Lei, Y Q, Liu, Y Z, Zhang, S Y, Ren, J Y, Zhou, J L, Wang, J Y, Gong, L Z, Yu, Y Y, Liu, L, Zhu, L W, Guo, Y Q, Wang, Y T, He, P A, Lou, B, Cai, X H, Sun, S L, Wu, X, Qi, K, Zhang, N, Li, M, Dai, W Q, Chen, A Y, Mao, and J, He

Subjects
Adult, Male, China, Cross-Sectional Studies, Adolescent, Socioeconomic Factors, Urban Population, Neoplasms, Humans, Female, Middle Aged, Aged, Health Literacy
Published
2020

38. [Study on the health literacy and related factors of the cancer prevention consciousness among urban residents in China from 2015 to 2017]

Author

C C, Liu, C L, Shi, J F, Shi, A Y, Mao, H Y, Huang, P, Dong, F Z, Bai, Y S, Chen, D B, Wang, G X, Liu, X Z, Liao, Y N, Bai, X J, Sun, J S, Ren, L, Yang, D H, Wei, B B, Song, H K, Lei, Y Q, Liu, Y Z, Zhang, S Y, Ren, J Y, Zhou, J L, Wang, J Y, Gong, L Z, Yu, Y Y, Liu, L, Zhu, L W, Guo, Y Q, Wang, Y T, He, P A, Lou, B, Cai, X H, Sun, S L, Wu, X, Qi, K, Zhang, N, Li, W H, Xu, W Q, Qiu, M, Dai, and W Q, Chen

Subjects
Adult, Male, China, Health Knowledge, Attitudes, Practice, Cross-Sectional Studies, Adolescent, Socioeconomic Factors, Urban Population, Neoplasms, Humans, Female, Health Literacy
Published
2020

39. [Analysis on the demand, access and related factors of cancer prevention and treatment knowledge among urban residents in China from 2015 to 2017]

Author

K, Wang, C C, Liu, A Y, Mao, J F, Shi, P, Dong, H Y, Huang, D B, Wang, G X, Liu, X Z, Liao, Y N, Bai, X J, Sun, J S, Ren, L, Yang, D H, Wei, B B, Song, H K, Lei, Y Q, Liu, Y Z, Zhang, S Y, Ren, J Y, Zhou, J L, Wang, J Y, Gong, L Z, Yu, Y Y, Liu, L, Zhu, L W, Guo, Y Q, Wang, Y T, He, P A, Lou, B, Cai, X H, Sun, S L, Wu, X, Qi, K, Zhang, N, Li, W Q, Chen, W Q, Qiu, and M, Dai

Subjects
Adult, China, Health Knowledge, Attitudes, Practice, Health Services Needs and Demand, Cross-Sectional Studies, Adolescent, Socioeconomic Factors, Urban Population, Neoplasms, Surveys and Questionnaires, Humans, Health Services Accessibility
Published
2020

40. [Analysis on the consciousness of the early cancer treatment and its influencing factors among urban residents in China from 2015 to 2017]

Author

H C, Li, K, Wang, Y N, Yuan, A Y, Mao, C C, Liu, S, Liu, L, Yang, H Y, Huang, P, Dong, D B, Wang, G X, Liu, X Z, Liao, Y N, Bai, X J, Sun, J S, Ren, D H, Wei, B B, Song, H K, Lei, Y Q, Liu, Y Z, Zhang, S Y, Ren, J Y, Zhou, J L, Wang, J Y, Gong, L Z, Yu, Y Y, Liu, L, Zhu, L W, Guo, Y Q, Wang, Y T, He, P A, Lou, B, Cai, X H, Sun, S L, Wu, X, Qi, K, Zhang, N, Li, M, Dai, W Q, Chen, N, Wang, W Q, Qiu, and J F, Shi

Subjects
Adult, Male, China, Health Knowledge, Attitudes, Practice, Cross-Sectional Studies, Adolescent, Socioeconomic Factors, Urban Population, Neoplasms, Humans, Female, Time-to-Treatment
Published
2020

41. [Analysis on the consciousness of the cancer early detection and its influencing factors among urban residents in China from 2015 to 2017]

Author

A Y, Mao, J F, Shi, W Q, Qiu, C C, Liu, P, Dong, H Y, Huang, K, Wang, D B, Wang, G X, Liu, X Z, Liao, Y N, Bai, X J, Sun, J S, Ren, L, Yang, D H, Wei, B B, Song, H K, Lei, Y Q, Liu, Y Z, Zhang, S Y, Ren, J Y, Zhou, J L, Wang, J Y, Gong, L Z, Yu, Y Y, Liu, L, Zhu, L W, Guo, Y Q, Wang, Y T, He, P A, Lou, B, Cai, X H, Sun, S L, Wu, X, Qi, K, Zhang, N, Li, M, Dai, and W Q, Chen

Subjects
Adult, China, Health Knowledge, Attitudes, Practice, Cross-Sectional Studies, Adolescent, Socioeconomic Factors, Urban Population, Humans, Early Detection of Cancer
Published
2020

42. Study of $e^{+}e^{-} \to D^{+} D^{-} \pi^{+} \pi^{-} $ at center-of-mass energies from 4.36 to 4.60 GeV

Author

Y. Fu, Y. H. Xie, Y. H. Zheng, Cong-Feng Qiao, Y. H. Yan, J. W. Zhao, M. Maggiora, Q.P. Ji, L. Zhao, Y. C. Zhu, Ke Wang, Bingxuan Liu, G. Wilkinson, J. G. Lu, X D Shi, Lei Zhao, M. G. Zhao, Y. H. Yang, X. X. Ma, Xiao-Rui Lyu, W. S. Cheng, Yao Zhang, Y. H. Zhang, J. B. Jiao, L. J. Wu, Y. J. Mao, Hongming Zhang, S.H. Zhu, Z. Q. Yang, J.S. Huang, A. Gilman, Z.P. Mao, R. Kappert, T. Held, T. Hu, S. Lusso, H.L. Ma, Y. J. Mo, Guang Zhao, W. C. Yan, K. Goetzen, F. F. Sui, Y. G. Gao, J. Zhu, S. Gu, C. Q. Feng, A. Yuncu, Q. A. Malik, B. Garillon, L. M. Gu, C.L. Luo, P. Kiese, T.C. Zhao, Huihui Liu, G. Felici, Yi Chen, M. H. Gu, R. Kiuchi, Y.T. Gu, C. Z. Yuan, N. Cao, S. F. Zhang, Shan Jin, L.L. Wang, A. Q. Guo, S. Marcello, Y. Zeng, Yi Zhang, J. G. Messchendorp, R. A. Briere, Y.J. Lin, G. S. Huang, B. L. Wang, J. P. Dai, R. Farinelli, L.S. Wang, B. Y. Zhang, Xiang-Gan Liu, Xinying Song, A. Sarantsev, L. P. Zhou, X. S. Jiang, Stephen Lars Olsen, L. Lavezzi, J. Bloms, M. Richter, P. X. Shen, Xingguo Li, S. J. Zhao, Meng Wang, Z. Ning, S. Y. Xiao, Z.T. Sun, Muhammad Irshad, C. X. Yu, J. J. Xu, T. Lenz, D. M. Li, Z. Wu, W. Imoehl, M.H. Ye, X. Y. Shen, Gang Chen, Y. M. Ma, H. J. Lu, J.F. Qiu, X. A. Xiong, L. Xu, Magnus Wolke, O. Bakina, J. Min, Y. F. Liang, R. X. Yang, H. H. Wang, Wei Xu, Xiaofeng Zhu, J. Z. Zhang, P. Adlarson, Xi Yuan, F.H. Liu, J. J. Song, R. Baldini Ferroli, L. Sun, A. Zhemchugov, I. Uman, J.H. Zou, T. Y. Xing, Y.T. Liang, D. Y. Chen, B. Zheng, R. G. Ping, S. B. Liu, L. Zhang, D. P. Jin, Zhiqing Zhang, G. Li, X. L. Gao, M. Kuessner, Y. K. Sun, J. Fang, M. Pelizaeus, K. Liu, Q. J. Xu, X. Wang, A. A. Zafar, A. Mangoni, A. Rivetti, Z. Gao, J. Q. Zhang, Q. Liu, Y.Z. Sun, J. Zhuang, Zhenjun Xiao, F. A. Harris, Z. A. Liu, Tao Luo, Xiaoyu Zhou, B. Kopf, S. Spataro, X. P. Xu, W. L. Chang, F. Feldbauer, Q. Gao, C.X. Liu, Y. Fang, Z. Y. You, Z. A. Zhu, W.G. Li, M. Albrecht, W. B. Yan, Feng Liu, J. Y. Liu, N. Qin, X. L. Ji, I. Denysenko, Xuanhong Lou, Viktor Thorén, Nasser Kalantar-Nayestanaki, M. Savrié, Jie Yu, S. L. Niu, F. Y. Li, X. Q. Li, Y. F. Long, J.H. Yin, C.C. Zhang, V. Prasad, N. Yu. Muchnoi, H. Leithoff, K. L. He, B. X. Yu, Lei Li, H. M. Liu, H. J. Li, Michael Papenbrock, M. X. Luo, F. Yan, R.P. Guo, T. Weber, P. Patteri, Y. Jin, W. D. Li, O.B. Kolcu, C. P. Shen, B. T. Tsednee, L. L. Ma, Ch. Rosner, L. Gong, Y. Ban, P. Weidenkaff, F. H. Heinsius, M. Kuemmel, Matthew Glenn Kurth, M. Z. Wang, C. Morales Morales, Yue Pan, I. Garzia, X. F. Cui, M. Ablikim, M. Bertani, G. F. Cao, J. Chai, F. Li, K. J. Zhu, S. Pacetti, N. Huesken, Libo Guo, Q. Q. Song, K. Zhu, L. G. Xia, Y. Zhang, A. Amoroso, Cui Li, C. W. Wang, Jimin Zhao, J. Libby, W. Kühn, X. R. Zhou, H.X. Yang, M. Greco, P. L. Li, G.R. Liao, J.L. Ping, K. H. Rashid, Z. G. Wang, M. Rolo, Xiongfei Wang, Y. Hu, Y.X. Yang, S.A. Cetin, Xu Zhou, M.N. Achasov, Zhiqing Liu, H. S. Chen, G. Chelkov, J. Z. Fan, G.X. Sun, P. W. Luo, Ke Li, I. Boyko, Y. G. Xie, Cheng Li, H. L. Dai, Q.M. Ma, B.X. Zhang, A. Pitka, G. Cibinetto, M. Qi, Li Zhou, Xiaozhong Huang, H. J. Yang, Evelina Gersabeck, A. Dbeyssi, C. Dong, I. Balossino Balossino, J.Y. Zhang, S. Sosio, S. Q. Qu, Z. B. Li, W. Ikegami Andersson, B.C. Ke, L.H. Wu, T. Johansson, J. F. Chang, S. Ahmed, Jens Soeren Lange, Y. Nefedov, Y. Wang, T. Liu, L. Koch, R. Kliemt, S. X. Du, X. Liu, Z. L. Dou, A. Khoukaz, L. Fava, Z. H. Qin, M. Y. Dong, K. Schoenning, Q. Y. Li, Y. Gao, F.F. An, W. J. Zhu, X. D. Shi, A. Guskov, J. Y. Zhang, L. K. Li, Y. F. Wang, T. Y. Qi, X.P. Qin, X.S. Kang, G.F. Xu, S. J. Chen, H.B. Liu, V. Rodin, Andrzej Kupsc, S. Qian, Q. An, X.Q. Hao, Niklaus Berger, I.B. Nikolaev, K. Zhang, M. L. Chen, A. Calcaterra, H. B. Li, T. Hussain, X. Tang, S. L. Yang, Junfeng Sun, X. Y. Ma, X. Cai, F. De Mori, A. G. Denig, W. X. Gong, S. Malde, X. B. Ji, Yang Zhang, X. Y. Zhang, Joachim Pettersson, X. L. Wang, Xiang Zhou, I. K. Keshk, Y. X. Xia, X. K. Zhou, H. Liang, Q. Zhou, F.C. Ma, S. S. Sun, J.C. Chen, P.R. Li, P. Larin, Y. K. Heng, J. B. Liu, Z.X. Meng, Yu Lu, H.W. Wen, X. S. Qin, S. Han, H.Y. Sheng, P.L. Wang, C. X. Lin, M. Rump, Y. J. Sun, Yifan Yang, J. F. Hu, X. N. Li, M. Kurth, B. Wang, M. Fritsch, R.M. Wang, M.G. Alekseev, H. Muramatsu, A. N. Zhu, X. H. Sun, Haiping Peng, R. E. Mitchell, D.H. Wei, Ulrich Wiedner, Zhiyong Zhang, J.C. Li, L. Yang, Tao Zhang, M. Himmelreich, G. Y. Tang, F. Cossio, Jie Zhao, Xu Shan, Ke Liu, A. Mustafa, B.S. Zou, X. N. Ma, B.J. Liu, D. X. Lin, Z.L. Hou, H. M. Hu, J. W. Li, Y. T. Tan, W. Gradl, Y. S. Zhu, Yu Zhang, Z. G. Zhao, L. Z. Liao, Y. J. Xiao, G. Mezzadri, D. Y. Wang, H. H. Zhang, Fang Liu, J. W. Zhang, B. Zhong, Z. J. Sun, Yunlong Zhang, S. Maldaner, C.D. Fu, X. H. Mo, Q. Ji, R. Poling, H. L. Jiang, Jianping Zheng, K. Peters, T. J. Min, M. Destefanis, C. F. Redmer, J. D. Lu, D. Bettoni, X. T. Huang, M. H. Ye, G. Rong, M. Kavatsyuk, Q. Zhao, L.Y. Liu, H. Cai, Jacek Biernat, M. Shao, S.P. Wen, L. D. Liu, L. Y. Dong, Z.Y. Deng, Y. P. Guo, Z. P. Zhang, Z.Y. Wang, Zujian Wang, Y. Bai, S. Nakhoul, C. Sowa, Y. B. Zhao, Dahua Zhang, J. Dong, S. Nisar, C. J. Tang, Y. P. Lu, D. Dedovich, Y. Ding, X. Y. Jiang, M. M. Ma, X. L. Luo, K. Begzsuren, W. P. Wang, F. Bianchi, J. V. Bennett, Li Yan, Ziyuan Li, Y. R. Hou, W. Shan, Z. Jiao, D. Y. Liu, Zongyuan Wang, Y. Yuan, Q. Ouyang, S. S. Fang, F. Nerling, Y. B. Liu, J.L. Zhang, Huanhuan Liu, F.E. Maas, Dong E. Liu, X. H. Li, Q. L. Xiu, Xingchao Dai, Research unit Nuclear & Hadron Physics, Energy and Sustainability Research Institute Groni, and Nuclear Energy

Subjects
Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Electron–positron annihilation, Analytical chemistry, 01 natural sciences, lcsh:QC1-999, High Energy Physics - Experiment, Luminosity, NO, Subatomär fysik, Astronomi, astrofysik och kosmologi, Subatomic Physics, 0103 physical sciences, Mass spectrum, Astronomy, Astrophysics and Cosmology, ddc:530, Center of mass, 010306 general physics, lcsh:Physics
Abstract

We report a study of the $e^{+}e^{-} \to D^{+} D^{-} \pi^{+} \pi^{-}$ process using $e^{+}e^{-}$ collision data samples with an integrated luminosity of $2.5\,\rm{fb}^{-1}$ at center-of-mass energies from 4.36 to $4.60 \rm{GeV}$, collected with the BESIII detector at the BEPCII storage ring. The $D_{1}(2420)^+$ is observed in the $D^{+} \pi^{+} \pi^{-}$ mass spectrum. The mass and width of the $D_{1}(2420)^+$ are measured to be $(2427.2\pm 1.0_{\rm stat.}\pm 1.2_{\rm syst.}) \rm{MeV}/c^2$ and $(23.2\pm 2.3_{\rm stat.} \pm2.3_{\rm syst.}) \rm{MeV}$, respectively. The first errors are statistical and the second ones are systematic. In addition, the Born cross sections of the $e^{+}e^{-} \to D_{1}(2420)^+D^- + c.c. \to D^{+} D^{-} \pi^{+} \pi^{-}$ and $e^{+}e^{-} \to \psi(3770) \pi^{+} \pi^{-} \to D^{+} D^{-} \pi^{+} \pi^{-}$ processes are measured as a function of the center-of-mass energy., Comment: Updated version published in PLB

Published
2020
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43. Reverse transcription recombinase polymerase amplification assay for rapid detection of the cucurbit chlorotic yellows virus

Author

Zhu Xiaoping, Li Jintang, Qiao Ning, Xianping Zhang, Dan Zhao, Lianyi Zang, and X. H. Sun

Subjects
Crinivirus, Thermal cycler, Recombinase Polymerase Amplification, Reverse Transcription, Biology, Cucurbit chlorotic yellows virus, Sensitivity and Specificity, complex mixtures, Rapid detection, Virology, Reverse transcriptase, Recombinases, enzymes and coenzymes (carbohydrates), Nucleic Acid Amplification Techniques, DNA Primers, Nucleic acid detection
Abstract

The cucurbit chlorotic yellows virus (CCYV) causes severe economic losses in cucurbit plants. Although it has been widely known in various countries for several years, CCYV is rarely recognized due to the lack of rapid and effective detection methods in the early stage of the disease. Recombinase polymerase amplification (RPA) is a new, efficient, and simple technology for nucleic acid detection. In the present study, reverse transcription (RT)-RPA and quantitative RT-RPA were developed and utilized for fast detection of CCYV in field-collected melon samples. The analysis was performed under constant temperature conditions without the necessity for a thermal cycler in just 20 min. Moreover, the detection limit of RT-RPA for CCYV was determined at 10 pg. In the study, 58 field-collected samples were employed to evaluate the performance of the two assays. The positive rates were established at 72.4% (42/58) and 75.9% (44/58) by RT-RPA and qRT-RPA, respectively, and were consistent with the RT-PCR results. The successful application of RPA for the detection of CCYV in field-collected melon samples indicated its potential applicability. Thus, the developed RPA assays provide an alternative for fast, efficient, sensitive, and reliable detection of CCYV in diagnostic laboratories, which lack the precise instrumentation, and fields without appropriate equipment.

Published
2022

45. Observation of the Semileptonic D+ Decay into the K¯1(1270)0 Axial-Vector Meson

Author

P. Kiese, L. M. Gu, L. P. Zhou, P. R. Li, Y. M. Ma, Z. P. Mao, Yuan Hou, R. A. Briere, J. Fang, X. S. Jiang, Y. H. Zheng, Cong-Feng Qiao, J. Min, Ch. Rosner, X. L. Gao, R. X. Yang, Wei Xu, N. Yu. Muchnoi, Tao Luo, Z. Q. Yang, C. Dong, P. Adlarson, P. L. Wang, Meng Wang, Muhammad Irshad, Y. H. Zhang, L Y Liu, X. L. Ji, J. S. Huang, X. S. Kang, Y. G. Xie, Li Zhou, Huanhuan Liu, G. Felici, S. X. Du, F. De Mori, Z. L. Dou, B. X. Yu, B. Kopf, K. L. He, Bibo Ke, W. B. Yan, Y. F. Wang, I. B. Nikolaev, J. H. Yin, Xiao-Rui Lyu, C. X. Liu, Y. G. Gao, A. Q. Guo, M. Himmelreich, J. Bloms, J. Libby, Yaquan Fang, S. F. Zhang, T. Hussain, X. Y. Ma, W. X. Gong, H. S. Chen, H. L. Dai, Igor Boyko, F. A. Harris, W. L. Chang, A. Pitka, Z. Y. Wang, W. Imoehl, M. Shao, Y. T. Gu, J. F. Sun, S. Marcello, Y. Zeng, Y. J. Lin, I. Uman, M. Z. Wang, Jimin Zhao, P. L. Li, M. N. Achasov, S. Pacetti, X. H. Sun, H. Leithoff, X D Shi, Shan Jin, K. Goetzen, X. F. Wang, Dong E. Liu, X. H. Li, Q. L. Xiu, Zhe Sun, S. Lusso, Z. G. Wang, K. Schoenning, Q. Y. Li, B. S. Zou, M. Richter, Z. Ning, S. Y. Xiao, S. Nakhoul, N. Huesken, Y. Ding, B. J. Liu, Y. B. Chen, Xiaofeng Zhu, J. Z. Zhang, H. Y. Zhang, S. Sosio, Niklaus Berger, X. Wang, H. J. Li, F. Li, F. C. Ma, Z. Gao, J. Q. Zhang, S. L. Niu, F. Y. Li, Y. F. Long, K. Ravindran, M. Greco, L. Koch, A. Khoukaz, Xingchao Dai, Q. M. Ma, J. J. Song, X. L. Luo, M. Qi, H. Liang, Michael Papenbrock, H. J. Lu, F. Yan, L. Sun, Y. J. Mao, Ke Li, H. X. Yang, Joachim Pettersson, M. Y. Dong, H. J. Yang, A. Sarantsev, Matthew Glenn Kurth, D. H. Wei, J. S. Lange, A. Mustafa, T. Y. Xing, D. Y. Chen, R. Baldini Ferroli, K. Begzsuren, P. Larin, Xujin Yuan, J. G. Lu, Z. J. Xiao, I. Garzia, H. B. Li, S. Malde, W. P. Wang, F. Bianchi, M. H. Ye, Y. Yuan, S. B. Liu, Jun-Yi Zhang, Y. S. Zhu, Y. P. Guo, Yu Zhang, H. B. Liu, J. H. Zou, X. Tang, T. Liu, J. F. Qiu, R. Kappert, Z. P. Zhang, W. Kühn, Krisztian Peters, G. F. Xu, G. F. Chen, J. Y. Zhang, L. Yan, M. Kuessner, L. Fava, L. Zhang, Y. Nefedov, A. Yuncu, M. Rolo, X. N. Li, S. S. Sun, Zhiqing Liu, D. Y. Liu, C. F. Redmer, J. D. Lu, Q. Liu, S. Gu, Z. Y. You, Z. A. Zhu, H. W. Wen, F. E. Maas, T. Hu, T. Weber, S. L. Yang, Haiping Peng, B. Garillon, M. Fritsch, T. Y. Qi, Y. X. Xia, S. H. Zhu, X. S. Qin, L. Y. Dong, Bingxuan Liu, G. Wilkinson, Ke Wang, X. T. Huang, L. L. Ma, Zongyuan Wang, T. Yu, O. Bakina, L. Gong, Huihui Liu, A. G. Denig, C. L. Luo, Q. Zhou, F. Cossio, Yi Zhang, K. Y. Liu, Magnus Wolke, G. R. Liao, R. P. Guo, K. J. Zhu, Y. F. Liang, Yang Zhang, Zujian Wang, Y. K. Heng, T. Johansson, J. F. Chang, Y. Bai, C. C. Zhang, B. Zhong, L. B. Guo, X. K. Zhou, G. Rong, D. P. Jin, G. A. Chelkov, L. G. Xia, A. Amoroso, Cui Li, S. Ahmed, Y. X. Yang, X. Y. Song, W. S. Cheng, M. Bertani, L. Yang, S. J. Zhao, R. E. Mitchell, Z. X. Meng, O. B. Kolcu, X. A. Xiong, Y. H. Xie, C. P. Shen, N. Qin, J. G. Messchendorp, P. X. Shen, S. Q. Qu, Z. B. Li, W. Ikegami Andersson, L. J. Wu, Fenfen An, J. P. Dai, X. Cai, H. Muramatsu, A. N. Zhu, Ulrich Wiedner, B. L. Wang, Q. Ouyang, Tao Zhang, A. Dbeyssi, Yao Zhang, F. Nerling, L. Lavezzi, G. Li, S. S. Fang, M. Maggiora, Ling Zhao, Xiaozhong Huang, Z. Wu, Y. J. Mo, G. Y. Tang, T. C. Zhao, X. Y. Jiang, A. A. Zafar, Fang Liu, Q. J. Xu, Angelo Rivetti, Y. B. Liu, X. Q. Hao, Ke Liu, Lei Zhao, Z. L. Hou, M. M. Ma, M. Kuemmel, Jie Zhao, A. Gilman, W. G. Li, I. Denysenko, Y. K. Sun, J. C. Chen, D. X. Lin, Y. T. Tan, Q. Zhao, Y. Z. Sun, Andrzej Kupsc, W. Shan, Yunlong Zhang, Zhiqing Zhang, Alexey Zhemchugov, H. M. Hu, D. Bettoni, Xuanhong Lou, Viktor Thorén, Xiaoyu Zhou, W. Gradl, W. C. Yan, Q. P. Ji, S. Spataro, X. P. Xu, Xiang-Gan Liu, Nasser Kalantar-Nayestanaki, K. H. Rashid, M. L. Chen, X. F. Cui, R. Poling, H. L. Jiang, X. H. Mo, L. S. Wang, D. Y. Wang, Xiang Zhou, I. K. Keshk, Xu Shan, C. Morales Morales, Yue Pan, C. Z. Yuan, N. Cao, J. Chai, G. X. Sun, J. V. Bennett, J. W. Zhang, Ziyuan Li, C. D. Fu, C. Q. Feng, Z. Jiao, Fu-Hu Liu, B. Y. Zhang, D. H. Zhang, Lei Li, Jianping Zheng, H. M. Liu, I. Balossino, Y. T. Liang, Liqing Xu, M. Alekseev, J. C. Li, C. Sowa, X. Y. Shen, Y. B. Zhao, J. J. Xu, C. X. Lin, S. J. Chen, T. J. Min, G. S. Huang, Evelina Gersabeck, L. L. Wang, H. Cai, J. Dong, G. F. Cao, Jacek Biernat, M. Rump, Gang Zhao, Z. Y. Deng, S. Nisar, J. Zhuang, C. J. Tang, Y. Hu, C. W. Wang, Y. P. Lu, S. Han, M. G. Zhao, Y. H. Yang, X. X. Ma, J. Zhu, W. J. Zhu, X. D. Shi, M. X. Luo, M. Destefanis, L. H. Wu, D. V. Dedovich, M. Savrie, Xu Zhou, R. Farinelli, Yi Jin, Z. H. Qin, J. W. Li, Stephen Lars Olsen, R. M. Wang, Y. J. Xiao, H. L. Ma, T. Lenz, Xingguo Li, D. M. Li, M. Pelizaeus, R. Kliemt, J. Y. Liu, A. Mangoni, A. Guskov, Jie Yu, A. Calcaterra, Z. G. Zhao, L. Z. Liao, Q. Gao, Y. N. Gao, Y. Zhang, J. Z. Fan, H. H. Zhang, Z. J. Sun, S. Maldaner, G. Cibinetto, P. W. Luo, L. K. Li, V. Rodin, X. B. Ji, P. Patteri, F. Feldbauer, Feng Liu, M. Ablikim, J. B. Jiao, X. N. Ma, Y. Schelhaas, B. Wang, X. Liu, H. R. Qi, Q. Q. Song, M. Kavatsyuk, B. X. Zhang, Serkant Ali Cetin, S. Qian, Q. An, Jialun Ping, K. Zhang, X. Y. Zhang, X. L. Wang, J. B. Liu, Y. J. Sun, Yifan Yang, M. Albrecht, W. D. Li, B. T. Tsednee, Y. Fu, Y. H. Yan, J. W. Zhao, Y. C. Zhu, T. Held, J. L. Zhang, F. F. Sui, M. H. Gu, R. Kiuchi, H. Y. Sheng, C. X. Yu, B. Zheng, R. G. Ping, Z. A. Liu, V. Prasad, Y. Ban, P. Weidenkaff, F. H. Heinsius, S. P. Wen, X. R. Zhou, Cheng Li, J. F. Hu, Zhiyong Zhang, X. P. Qin, Q. A. Malik, and G. Mezzadri

Subjects
Physics, Particle physics, Meson, Physics::Instrumentation and Detectors, Branching fraction, Detector, General Physics and Astronomy, 01 natural sciences, law.invention, law, 0103 physical sciences, High Energy Physics::Experiment, Nuclear Experiment, 010306 general physics, Collider, Pseudovector, Energy (signal processing)
Abstract

By analyzing a 2.93 fb(-1) data sample of e(+)e(-) collisions, recorded at a center-of-mass energy of 3.773 GeV with the BESIII detector operated at the BEPCII collider, we report the first observa ...

Published
2019

46. Additive remanufacturing of coupler knuckle based on robotic gas metal arc welding

Author

Z T Zhan, L Kou, X H Ni, X J Li, X C Feng, Z Q Yin, X J Yuan, X D Gong, J L Gao, X H Sun, F Wang, G Q Liang, and Y X Meng

Subjects
History, Materials science, Knuckle, medicine.anatomical_structure, medicine, Mechanical engineering, Remanufacturing, Computer Science Applications, Education, Gas metal arc welding
Abstract

Take the wear parts of coupler knuckle as an example, the “Modeling—Slicing — Stacking” mode remanufacturing process is studied. First, the 3D model of the of the worn coupler knuckle surface is acquired by structured light 3D detection. The remanufacturing model of the failure part is built by Boolean operation between the original model and the acquired 3D model. Second, the user can slice layer of the remanufacturing model according to the remanufacturing stacking parameters. The zone that surrounded by the contour of each sliced layer is the robotic GMAW remanufacturing stack region. Third, the robotic GMAW remanufacturing path is planed within the region mentioned above and the executable program is generated to carry out the remanufacturing task layer by layer. Moreover, the worn coupler knuckle was repaired by adopting Robotic GMAW Process. The mechanical performances of component were tested, the results indicate that the remanufactured coupler knuckle satisfying the operating requirements.

Published
2021

47. Fabrication and characterization of pure and well-aligned carbon nanotubes using methane/nitrogen-ammonia plasma

Author

W. K. Wong, C. P. Li, X. H. Sun, C. S. Lee, W. Zhu, F. C. K. Au, M. K. Fung, and S. T. Lee

Subjects
Scanning microscopy -- Usage, Ammonia -- Chemical properties, Nanotubes -- Research, Carbon compounds -- Chemical properties, Chemicals, plastics and rubber industries
Abstract

The well-aligned multiwalled carbon nanotubes (CNTs) were grown by microwave plasma-enhanced chemical vapor deposition using N2 and NH3 as the carrier gases and CH4 as the carbon source. The scanning electron microscopy revealed that the CNTs grew via the base growth mechanism at a rate of ~100 nm/s.

Published
2003

48. Reductive growth of nanosized ligated metal clusters on silicon nanowires

Author

X. H. Sun, C. P. Li, N. B. Wong, C. S. Lee, S. T. Lee, and Teo, Boon K.

Subjects
Chemistry, Inorganic -- Research, Ligands -- Physiological aspects, Silicon -- Physiological aspects, Transition metals -- Physiological aspects, Nanotechnology -- Usage, Nitrogen -- Physiological aspects, Tungsten -- Physiological aspects, Chemistry
Abstract

Research has been conducted on the reductive metal cluster growth on nanowires. Results indicate that the reduced metal clusters grow to different sizes in the nanometer regime on the SiNW surfaces.

Published
2002

49. First Result from the Alpha Magnetic Spectrometer on the International Space Station: Precision Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–350 GeV

Author

M. Aguilar, G. Alberti, B. Alpat, A. Alvino, G. Ambrosi, K. Andeen, H. Anderhub, L. Arruda, P. Azzarello, A. Bachlechner, F. Barao, B. Baret, A. Barrau, L. Barrin, A. Bartoloni, L. Basara, A. Basili, L. Batalha, J. Bates, R. Battiston, J. Bazo, R. Becker, U. Becker, M. Behlmann, B. Beischer, J. Berdugo, P. Berges, B. Bertucci, G. Bigongiari, A. Biland, V. Bindi, S. Bizzaglia, G. Boella, W. de Boer, K. Bollweg, J. Bolmont, B. Borgia, S. Borsini, M. J. Boschini, G. Boudoul, M. Bourquin, P. Brun, M. Buénerd, J. Burger, W. Burger, F. Cadoux, X. D. Cai, M. Capell, D. Casadei, J. Casaus, V. Cascioli, G. Castellini, I. Cernuda, F. Cervelli, M. J. Chae, Y. H. Chang, A. I. Chen, C. R. Chen, H. Chen, G. M. Cheng, H. S. Chen, L. Cheng, N. Chernoplyiokov, A. Chikanian, E. Choumilov, V. Choutko, C. H. Chung, C. Clark, R. Clavero, G. Coignet, V. Commichau, C. Consolandi, A. Contin, C. Corti, M. T. Costado Dios, B. Coste, D. Crespo, Z. Cui, M. Dai, C. Delgado, S. Della Torre, B. Demirkoz, P. Dennett, L. Derome, S. Di Falco, X. H. Diao, A. Diago, L. Djambazov, C. Díaz, P. von Doetinchem, W. J. Du, J. M. Dubois, R. Duperay, M. Duranti, D. D’Urso, A. Egorov, A. Eline, F. J. Eppling, T. Eronen, J. van Es, H. Esser, A. Falvard, E. Fiandrini, A. Fiasson, E. Finch, P. Fisher, K. Flood, R. Foglio, M. Fohey, S. Fopp, N. Fouque, Y. Galaktionov, M. Gallilee, L. Gallin-Martel, G. Gallucci, B. García, J. García, R. García-López, L. García-Tabares, C. Gargiulo, H. Gast, I. Gebauer, S. Gentile, M. Gervasi, W. Gillard, F. Giovacchini, L. Girard, P. Goglov, J. Gong, C. Goy-Henningsen, D. Grandi, M. Graziani, A. Grechko, A. Gross, I. Guerri, C. de la Guía, K. H. Guo, M. Habiby, S. Haino, F. Hauler, Z. H. He, M. Heil, J. Heilig, R. Hermel, H. Hofer, Z. C. Huang, W. Hungerford, M. Incagli, M. Ionica, A. Jacholkowska, W. Y. Jang, H. Jinchi, M. Jongmanns, L. Journet, L. Jungermann, W. Karpinski, G. N. Kim, K. S. Kim, Th. Kirn, R. Kossakowski, A. Koulemzine, O. Kounina, A. Kounine, V. Koutsenko, M. S. Krafczyk, E. Laudi, G. Laurenti, C. Lauritzen, A. Lebedev, M. W. Lee, S. C. Lee, C. Leluc, H. León Vargas, V. Lepareur, J. Q. Li, Q. Li, T. X. Li, W. Li, Z. H. Li, P. Lipari, C. H. Lin, D. Liu, H. Liu, T. Lomtadze, Y. S. Lu, S. Lucidi, K. Lübelsmeyer, J. Z. Luo, W. Lustermann, S. Lv, J. Madsen, R. Majka, A. Malinin, C. Mañá, J. Marín, T. Martin, G. Martínez, F. Masciocchi, N. Masi, D. Maurin, A. McInturff, P. McIntyre, A. Menchaca-Rocha, Q. Meng, M. Menichelli, I. Mereu, M. Millinger, D. C. Mo, M. Molina, P. Mott, A. Mujunen, S. Natale, P. Nemeth, J. Q. Ni, N. Nikonov, F. Nozzoli, P. Nunes, A. Obermeier, S. Oh, A. Oliva, F. Palmonari, C. Palomares, M. Paniccia, A. Papi, W. H. Park, M. Pauluzzi, F. Pauss, A. Pauw, E. Pedreschi, S. Pensotti, R. Pereira, E. Perrin, G. Pessina, G. Pierschel, F. Pilo, A. Piluso, C. Pizzolotto, V. Plyaskin, J. Pochon, M. Pohl, V. Poireau, S. Porter, J. Pouxe, A. Putze, L. Quadrani, X. N. Qi, P. G. Rancoita, D. Rapin, Z. L. Ren, J. S. Ricol, E. Riihonen, I. Rodríguez, U. Roeser, S. Rosier-Lees, L. Rossi, A. Rozhkov, D. Rozza, A. Sabellek, R. Sagdeev, J. Sandweiss, B. Santos, P. Saouter, M. Sarchioni, S. Schael, D. Schinzel, M. Schmanau, G. Schwering, A. Schulz von Dratzig, G. Scolieri, E. S. Seo, B. S. Shan, J. Y. Shi, Y. M. Shi, T. Siedenburg, R. Siedling, D. Son, F. Spada, F. Spinella, M. Steuer, K. Stiff, W. Sun, W. H. Sun, X. H. Sun, M. Tacconi, C. P. Tang, X. W. Tang, Z. C. Tang, L. Tao, J. Tassan-Viol, Samuel C. C. Ting, S. M. Ting, C. Titus, N. Tomassetti, F. Toral, J. Torsti, J. R. Tsai, J. C. Tutt, J. Ulbricht, T. Urban, V. Vagelli, E. Valente, C. Vannini, E. Valtonen, M. Vargas Trevino, S. Vaurynovich, M. Vecchi, M. Vergain, B. Verlaat, C. Vescovi, J. P. Vialle, G. Viertel, G. Volpini, D. Wang, N. H. Wang, Q. L. Wang, R. S. Wang, X. Wang, Z. X. Wang, W. Wallraff, Z. L. Weng, M. Willenbrock, M. Wlochal, H. Wu, K. Y. Wu, Z. S. Wu, W. J. Xiao, S. Xie, R. Q. Xiong, G. M. Xin, N. S. Xu, W. Xu, Q. Yan, J. Yang, M. Yang, Q. H. Ye, H. Yi, Y. J. Yu, Z. Q. Yu, S. Zeissler, J. G. Zhang, Z. Zhang, M. M. Zhang, Z. M. Zheng, H. L. Zhuang, V. Zhukov, A. Zichichi, P. Zuccon, and C. Zurbach

Published
2013
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50. X-ray absorption fine structure and electron energy loss spectroscopy study of silicon nanowires at the Si L(sub 3,2) edge

Author

X. -H. Sun, Y. -F. Zhang, N. B. Wong, S. T. Lee, Peng, H. Y., Sham, T. K., Sammynaiken, R., Naftel, S. J., P. Zhang, and Y. -H. Tang

Subjects
Luminescence -- Analysis, Silicon compounds -- Usage, Silicon compounds -- Properties, Physics
Abstract

X-ray absorption fine structures (XAFS) and electron energy loss spectroscopy (EELS) at the Si L(sub 3,2) edge is used to investigate a series if Si nanowires. Optical properties of these Si nanowires are studied by using X-ray excited optical luminescence (XEOL).

Published
2001

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