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106 results on '"X C Meng"'

1. Effect of tempering temperature on microstructure and properties of high nitrogen stainless steel skates

Author

B. H. Wang, Z. J. Wei, Y. Q. Yan, X. C. Meng, and J. J. Wang

Subjects
high nitrogen stainless steel, tempering temperature, skates, microstructure, mechanical properties, Mining engineering. Metallurgy, TN1-997
Abstract

The results show that when the tempering temperature is 180 ~ 550 °C, the hardness, tensile strength and yield strength decrease first, then increase and then decrease rapidly. The test steel reduces carbon and increases nitrogen, and there is no coarse eutectic carbide in the structure. When the tempering temperature is 500 °C, the matrix structure is tempered sorbite, carbide M23C6 and nitride Cr2N are finely dispersed and evenly distributed on the matrix. Secondary hardening occurs when tempering at 500 °C, and the strength and hardness reach the peak, which is related to the dispersion strengthening of carbonitride. The experimental results provide theoretical guidance for high carbon steel in the process of making skates.

Published
2025

2. Based on the constitutive model of high temperature plastic deformation of TC17 titanium alloy for underwater robot metal material

Author

S. L. Liao, X. C. Meng, and P. F. Shuai

Subjects
TC17 titanium alloy, stress, strain, underwater robot, constitutive model, Mining engineering. Metallurgy, TN1-997
Abstract

The hot compression tests of underwater vehicle metal material TC17 titanium alloy at deformation temperature of 800 ~ 950 °C and strain rate of 0,01 ~ 10 s-1 were carried out by Thermecmaster-Z thermal simulator. The hot deformation behavior of TC17 ferroalloy was studied. The effects of strain rate and deformation temperature on the high temperature forming of TC17 titanium alloy were analyzed. The multiple linear regression constitutive model of TC17 titanium alloy was established. The results show that the flow stress of TC17 alloy decreases with the increase of deformation temperature and increases with the increase of strain rate. The theoretical value of peak stress obtained by the multiple linear regression constitutive model of TC17 alloy is in good agreement with the experimental results, and the correlation is 97,25%. The model has high prediction accuracy.

Published
2024

6. [Predictive value of magnetic resonance imaging characteristics before and after radiotherapy for the occurrence of severe radiation-induced late rectal injury in patients with rectal cancer]

Author

X M, Wu, Y J, Li, P Y, Xie, X M, Pan, K X, Niu, W T, Cao, T H, Ma, and X C, Meng

Subjects
Diffusion Magnetic Resonance Imaging, Treatment Outcome, Adolescent, Rectal Neoplasms, Quality of Life, Humans, Chemoradiotherapy, Magnetic Resonance Imaging, Neoadjuvant Therapy, Retrospective Studies
Published
2021

7. Real time wall conditioning with lithium powder injection in long pulse H-mode plasmas in EAST with tungsten divertor

Author

Robert Lunsford, L. Wang, W. Xu, John Canik, J.S. Hu, Xianzu Gong, X. C. Meng, Alessandro Bortolon, Lingxuan Zhang, Mingguang Huang, East Team, Yaowei Yu, R. Maingi, Feng Ding, D.K. Mansfield, C. R. Wu, Guizhong Zuo, Z. Sun, and Songtao Mao

Subjects
010302 applied physics, Nuclear and High Energy Physics, Materials science, Materials Science (miscellaneous), Divertor, Evaporation, Analytical chemistry, chemistry.chemical_element, Plasma, Tungsten, lcsh:TK9001-9401, 01 natural sciences, 010305 fluids & plasmas, Nuclear Energy and Engineering, chemistry, Heat flux, Impurity, 0103 physical sciences, lcsh:Nuclear engineering. Atomic power, Lithium, Deposition (law)
Abstract

Real-time lithium powder injection has been applied to long-pulse (>30 s) H-mode plasmas in EAST. This replenishes the active lithium surface that is routinely consumed by plasma-wall interactions. The real-time injection of Li powder into long H-mode discharges effectively suppresses impurity influx and controls recycling on EAST, with an ITER-like tungsten upper divertor. With lithium powder injection, the concentrations W, Mo, and C were reduced by 50% compared to ELMy H-mode discharges. During lithium injection, two effects play a role in the suppression of impurities influx: a reduced divertor temperature and heat flux and hence reduced erosion, and impurity trapping via deposition of a Li film onto plasma-facing surfaces. The ‘fresh’ injected lithium replenishes the film deposited during daily morning evaporation, restoring the wall's pumping capability. Thus, a measurable reduction in the global recycling coefficient was observed. Keyword: Long pulse plasma, Lithium, Impurity, Recycling

Published
2019
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9. [Clinical study of causes and outcomes in pediatric liver retransplantation]

Author

C, Sun, C, Dong, X C, Meng, K, Wang, H, Qin, C, Han, Y, Yang, F B, Zhang, W P, Zheng, Z L, Song, H H, Li, W, Gao, and Z Y, Shen

Subjects
End Stage Liver Disease, Male, Reoperation, Postoperative Complications, Adolescent, Graft Survival, Humans, Female, Child, Severity of Illness Index, Retrospective Studies
Published
2021

10. Measurement of the Mass of the τ Lepton

Author

T. H. Burnett, S. T. Xue, F. Li, H. L. Ni, W. G. Li, Jun-Bing Ma, H. S. Zhou, G. Y. Hu, Q. Liu, Z. D. Cheng, G. P. Zhou, O. Bardon, E. Soderstrom, Wei Li, Y. H. Zhou, Michael J. Fero, Z. J. Jiang, J. S. Whitaker, Chunmei Zhang, L. P. Zhou, Z. P. Mao, Robert Wilson, S. D. Gu, D. H. Ma, W. G. Yan, Q. P. Jia, L. J. Pan, T. Hu, H. Marsiske, D. L. Shen, M. L. Gao, Y. S. Li, C. M. Yang, R. Cowan, W. X. Gao, M. Mandelkern, Ming-Han Ye, Q. M. Zhu, W. D. Li, Yuanyuan Wang, J. W. Zhang, J. A. Coller, S. Z. Lin, D. G. Hitlin, W. R. Zhao, E. Torrence, H. M. Liu, Lei Zhang, Q. M. Li, Z. P. Zheng, Y. F. Lai, Y. B. Liu, D. M. Xi, Y. N. Gao, Joseph Izen, G. Rong, L. S. Zheng, Y. Zhang, X. M. Xia, J. Yan, Pihong Zhao, H. Y. Zhang, J. Panetta, J. S. Campbell, A. S. Johnson, S. M. Chen, D. X. Zhao, B. Y. Zhang, W. X. Gu, Y. C. Zhu, P. Wang, G. L. Tong, M. Z. Wang, X. C. Meng, Z. Q. Xu, W. H. Toki, P. L. Wang, X. F. Zhou, Junguang Lu, P. F. Lang, Xingzhu Cui, H. C. Cui, H. Z. Shi, H. S. Sun, S. Q. Zhang, D. Q. Huang, T. J. Wang, A. J. S. Smith, J. Synodinos, R. Becker-Szendy, J. Z. Bai, Ya-Nan Guo, C. Y. Yang, S. Q. Gao, X. F. Song, Y. Q. Chen, H. L. Ding, Xin Wu, D. P. Stoker, C. Fang, L. Z. Wang, X. X. Xie, R. K. Yamamoto, M. H. Kelsey, R. S. Xu, J. C. Li, Y. K. Que, H. S. Mao, Y. S. Zhu, S. Z. Ye, M. Hatanaka, W. Dunwoodie, M. G. Zhao, Z. Q. Yu, W. J. Wisniewski, G. Zioulas, J. H. Gu, J. Schultz, J. Quigley, S. J. Chen, L. Jones, B. Lowery, Chun-Hua Jiang, J. J. He, P. P. Xie, P. Q. Li, Y. Y. Shao, Jinxing Zheng, E. C. Ma, H. L. Zhang, E. Prabhakar, A. J. Lankford, H. B. Yao, J. T. Shank, D. H. Zhang, H. Y. Sheng, N. D. Qi, Z. Z. Du, R. G. Liu, B. Schmid, Y. L. Han, R. B. Li, Y. Z. Huang, F. C. Porter, and Y. N. Guo

Subjects
Physics, Particle physics, Lepton
Published
2020
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11. Evidence of ψ(3770) non-DD¯ decay to J/ψπ+π−

Author

M. He, X. Tang, W. G. Li, Q. M. Zhu, D. L. Shen, K. L. He, J. W. Zhao, L. P. Fu, Y. C. Xu, S. W. Han, J. M. Zhang, S. L. Zang, C. X. Liu, G. W. Yu, M. Z. Wang, Z. A. Liu, M. Y. Gong, C. F. Liu, Yingchun Zhu, Zheng Wang, S.L. Olsen, H. M. Liu, J. G. Lu, H. S. Sun, Houbing Lu, C. C. Zhang, Haiping Peng, W. R. Zhao, F. Liu, F. Li, F. C. Ma, Q. Yue, Y. Ban, M. H. Ye, R. B. Li, Fang Liu, J. C. Chen, Jing Wang, Y. B. Zhao, J. Z. Bai, Y. N. Gao, H. M. Hu, T. Hu, XZ(蔡翔舟) Cai, Qiyang Zhang, H. S. Chen, Yang Tian, J. F. Qiu, L. Y. Dong, D. X. Zhao, B. Y. Zhang, Jiawei Zhao, Jiemin Li, J. P. Liu, S.S. Sun, S. D. Gu, J. Nie, Z. Y. Wang, J. Fang, L. S. Zheng, H. Y. Sheng, L. L. Ma, G. F. Xu, S. Jin, S. X. Du, X. L. Luo, H. Y. Zhang, W. D. Li, L. P. Zhou, S. T. Xue, M. L. Yan, G. A. Yang, P. Wang, N. D. Qi, Y. M. Dai, Liang Huang, X. Y. Zhang, Z. G. Zhao, X. C. Zhong, Z. J. Ke, R. G. Liu, G. S. Varner, Z. P. Mao, Y. S. Dai, J. Ying, J. Y. Zhang, J. B. Liu, H. Shen, Y. C. Zhu, R. Y. Li, F. Lu, C. S. Gao, Z. Z. Du, Y. P. Chu, X. B. Ji, P. L. Wang, Meng Wang, W. B. Yan, Jinxing Zheng, Z. J. Sun, X. H. Mo, Z. X. Liu, X. C. Meng, Y. K. Heng, Y. Y. Zhang, Cunfeng Wei, Ning Zhou, F. A. Harris, C. D. Qian, Y. N. Guo, Yudan Wang, S. Q. Tang, J. C. Li, D. Tian, Y. Jin, J. W. Zhang, T. Hong, L. S. Wang, G. Li, S. D. Yang, J. J. He, Zhe Wang, C. D. Fu, H. X. Yang, G. R. Lu, Z.J. Guo, J. G. Bian, Z. A. Zhu, Y. Yuan, Y. S. Zhu, Xingzhu Cui, Z. P. Zhang, Xintong Li, M. L. Gao, X. X. Xie, X. M. Xia, Bing Zhou, Chun-Hua Jiang, L. W. Song, Y. Zeng, S. P. Chi, Y. Q. Guo, P. P. Zhao, H. Y. Fu, Zujian Wang, Q. J. Li, B. X. Zhang, K. J. Zhu, S. Q. Zhang, J. M. Yuan, Y. B. Chen, Y. Z. Sun, S. S. Fang, Y. B. Liu, Y. F. Lai, Lei Zhang, H. F. Chen, W. F. Wang, Zhiyun Zheng, G. Rong, Feng Shi, Z. J. Lu, H. H. Li, B.S. Zou, N. Wu, Y. J. Zhang, Guangzhao Zhou, Xiru Huang, G. L. Tong, B. A. Zhuang, X. Y. Shen, Jiming Yang, G. S. Huang, K. Li, J. Z. Wang, D. P. Jin, X. S. Jiang, D. H. Zhang, C. S. Yu, J. F. Chang, Yiyun Zhang, Z. D. Nie, Y. X. Ye, E. C. Ma, X. H. He, X. Q. Li, Jun-Bing Ma, and W. X. Gong

Published
2020
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12. Observation of a Near-Threshold Enhancement in the pp¯ Mass Spectrum from Radiative J/ψ→γpp¯ Decays

Author

B.S. Zou, Yudan Wang, S. Q. Tang, J. Chen, H. M. Hu, W. B. Yan, J. G. Lu, G. R. Lu, Z. A. Zhu, D. Paluselli, G. S. Huang, Q. J. Li, T. Hu, XZ(蔡翔舟) Cai, Jiming Yang, Bing Zhou, F. Li, F. C. Ma, Q. Yue, J. C. Chen, R. Malchow, J. W. Zhao, G. W. Yu, K. Li, C. F. Liu, Yingchun Zhu, G. Li, Zhe Wang, R. B. Li, Jing Wang, Y. B. Zhao, Z. A. Liu, Xingzhu Cui, W. D. Li, W. R. Zhao, F. Liu, Liang Huang, S. D. Gu, Jie Chen, C. D. Fu, Y. Ban, B. D. Jones, S.S. Sun, M. L. Gao, Y. Zeng, Y. N. Gao, J. Fang, P. P. Zhao, Y. Q. Guo, Feng Shi, L. S. Zheng, J. Z. Wang, J. F. Qiu, S. T. Xue, Y. B. Chen, K. L. He, Z. P. Zheng, X. C. Zhong, Qiyang Zhang, Z. Y. Wang, Z. J. Lu, H. Y. Zhang, Lei Zhang, J. Z. Bai, X. H. Mo, L. S. Wang, H. H. Li, Guangzhao Zhou, Zheng Wang, X. M. Xia, X. C. Meng, G. S. Varner, Z. J. Guo, Y. F. Lai, Joseph Izen, G. Rong, S. W. Han, X. Tang, D. P. Jin, J. F. Chang, Xintong Li, Jun-Bing Ma, Xiru Huang, H. F. Chen, Fang Liu, J. Ying, W. F. Wang, W. H. Toki, J. M. Zhang, N. Wu, T. Hong, X. X. Xie, P. Wang, S. Q. Zhang, H. Y. Fu, G. L. Tong, B. A. Zhuang, J. Y. Zhang, H. Y. Sheng, W. X. Gong, Z. P. Zhang, Yiyun Zhang, Chun-Hua Jiang, M. H. Ye, Y. Z. Sun, D. H. Zhang, D. X. Zhao, B. Y. Zhang, Y. P. Chu, X. B. Ji, C. S. Yu, Jiemin Li, J. P. Liu, X. L. Luo, X. Y. Shen, N. D. Qi, Y. M. Dai, Y. X. Ye, Zujian Wang, L. Y. Dong, Y. C. Zhu, G. A. Yang, Meng Wang, D. Kong, C. D. Qian, Z. Z. Du, M. He, D. L. Shen, X. S. Jiang, M. Y. Gong, P. L. Wang, W. Dunwoodie, X. Q. Li, Y. K. Heng, Y. Y. Zhang, X. Y. Zhang, W. G. Li, S. P. Chi, Z. X. Liu, C. X. Liu, R. G. Liu, D. Tian, F. Lu, J. B. Liu, H. M. Liu, J. J. He, K. J. Zhu, J. M. Yuan, J. G. Bian, B. X. Zhang, Y. Jin, F. A. Harris, Y. N. Guo, Z. D. Nie, Y. Yuan, Y. S. Zhu, G. F. Xu, S. Jin, L. W. Song, S. S. Fang, C. Z. Yuan, Y. B. Liu, Yang Tian, E. C. Ma, S. X. Du, M. L. Yan, X. H. He, Y. J. Zhang, H. S. Chen, L. P. Zhou, Z. P. Mao, S. L. Zang, S.L. Olsen, J. Nie, Y. S. Dai, C. S. Gao, Jinxing Zheng, Q. M. Zhu, Y. C. Xu, M. Z. Wang, H. S. Sun, Haiping Peng, X. C. Lou, S. D. Yang, L. P. Fu, Houbing Lu, C. C. Zhang, J. C. Li, H. X. Yang, Z. G. Zhao, Z. J. Sun, H. Shen, R. Y. Li, Cunfeng Wei, Ning Zhou, J. W. Zhang, Jiawei Zhao, and Z. J. Ke

Subjects
Physics, Near threshold, Mass spectrum, Radiative transfer, Atomic physics
Published
2020
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13. Measurements of the Cross Section for e+e− → Hadrons at Center-of-Mass Energies from 2 to 5 GeV

Author

B.S. Zou, X. H. Mo, L. S. Wang, J. W. Zhao, X. C. Meng, Feng Shi, G. W. Yu, Xiaolu Ji, H. Shen, P. L. Wang, H. Y. Sheng, R. Y. Li, M. H. Ye, Guangzhao Zhou, C. X. Yu, T. Hong, Yirong Zhu, H. S. Mao, N. D. Qi, F. A. Harris, L. Y. Dong, Xingzhu Cui, Cunfeng Wei, W. G. Li, B. S. Cheng, J. Z. Wang, J. W. Zhang, J. G. Lu, Y. Yuan, Y. S. Zhu, Jun-Bing Ma, G. F. Xu, Z. P. Zhang, Chun-Hua Jiang, X. Y. Shen, H. M. Liu, Jing Wang, Y. B. Zhao, Y. Ban, T. Hu, D. H. Zhang, C. S. Yu, G. S. Huang, D. M. Xi, Z. J. Guo, M. G. Zhao, X. D. Chen, Y. K. Que, B. J. Liu, S. Q. Tang, L. P. Fu, H. B. Li, C. C. Zhang, Zhengguo Zhao, H. M. Hu, H. S. Chen, B. D. Jones, H. H. Li, G. R. Lu, E. C. Ma, J. B. Choi, Z. A. Zhu, H. L. Zhang, J. F. Qiu, C. D. Qian, Y. Z. Huang, H. W. Zhao, X. Q. Li, W. B. Yan, X. H. He, S. D. Gu, J. Z. Bai, Q. J. Li, Z. P. Zheng, Peng Zhang, P. Q. Li, H. X. Yang, D. Li, J. S. Kang, Hyunyong Kim, Jiawei Zhao, Z. J. Lu, Z. Z. Du, Wei Li, J. C. Li, X. Y. Zhang, J. P. Liu, R. G. Liu, C. Y. Yang, J. Y. Suh, Z. J. Ke, Xiru Huang, Feng Liu, Tai Young Kim, J. G. Bian, G. L. Tong, Tao Liu, J. Y. Zhang, S. W. Ye, G. A. Yang, Seong Keun Kim, Y. F. Lai, Z. X. Liu, G. S. Varner, B. A. Zhuang, H. Z. Shi, Xuan Yang, X. M. Xia, Qiyang Zhang, K. L. He, H. Park, Fei-Fei Liu, S. W. Han, Lingxuan Zhang, X. F. Song, W. Dunwoodie, H. F. Chen, Hongming Zhang, P. P. Zhao, Z. D. Nie, D. Kong, H. Y. Fu, Xinglong Li, W. G. Yan, W. H. Toki, Liangfeng Sun, Y. K. Heng, Y. Y. Zhang, Lei Zhang, Q. H. Hu, S. T. Xue, Y. X. Ye, S. P. Chi, Y. Jin, Joseph Izen, D. Paluselli, G. Rong, C. M. Yang, M. He, D. L. Shen, G. Y. Hu, K. J. Zhu, B. W. Shen, D. X. Zhao, B. Y. Zhang, Jiemin Li, J. C. Chen, R. Malchow, Y. Y. Wang, Z. Y. Wang, Yi Chen, S. M. Wang, Y. P. Chu, L. S. Zheng, P. Wang, Bing Zhou, Y. N. Guo, A. D. Chen, N. Wu, Y. L. Han, S. Q. Zhang, Y. Z. Sun, W. R. Zhao, X. R. Qi, F. Lu, S.L. Olsen, L. P. Zhou, Z. P. Mao, W. Yang, J. Nie, Y. S. Dai, Y. Y. Shao, C. S. Gao, Jinxing Zheng, Q. M. Zhu, Y. C. Xu, J. He, H. S. Sun, X. C. Lou, X. X. Xie, Y. B. Liu, X. L. Luo, and J. J. He

Subjects
Physics, Nuclear physics, Cross section (physics), Hadron, Center of mass
Published
2020
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14. Direct Measurement of the Pseudoscalar Decay Constant, fDs

Author

Z. P. Zheng, Y. Jin, J. C. Li, C. C. Zhang, D. Paluselli, G. P. Zhou, J. G. Lu, G. Zioulas, S. Z. Lin, W. R. Zhao, Z. A. Liu, L. S. Wang, M. H. Ye, R. B. Li, I. Blum, Z. Q. Xu, Y. H. Zhou, K. R. He, R. J. Wilson, Chun-Hua Jiang, D. P. Stoker, J. H. Liu, T. J. Wang, S. Whittaker, R. Malchow, G. L. Tong, T. Hu, Michael Schernau, W. Yang, B. A. Zhuang, P. Gratton, Q. P. Jia, J. Panetta, S. M. Chen, X. M. Xia, H. B. Lan, W. X. Zhao, S. Q. Gao, J. Nie, J. Fang, L. S. Zheng, X. R. Shi, Y. Z. Huang, G. P. Chen, Y. B. Liu, Y. Zhang, Y. C. Zhu, O. Bardon, P. L. Wang, E. Soderstrom, H. Shen, Wei Li, D. X. Zhao, B. Y. Zhang, F. C. Porter, F. Sun, X. Q. Hu, W. D. Li, Y. F. Gu, S. H. Kang, D. Z. Xu, J. M. lzen, X. F. Zhou, D. Q. Huang, R. S. Xu, Y. Y. Wang, Y. Y. Shao, C. S. Gao, D. G. Hitlin, M. He, D. L. Shen, J. Quigley, S. Z. Ye, M. Hatanaka, M. Mandelkern, C. Z. Yuan, H. B. Hu, R. G. Liu, Jinxing Zheng, S. J. Chen, H. S. Mao, B. K. Kim, Y. Q. Chen, S. T. Xue, J. W. Zhang, B. Schmid, B. S. Cheng, J. Z. Bai, A. Breakstone, Q. Liu, Xingzhu Cui, M. G. Zhao, G. Y. Hu, F. A. Harris, L. Jones, J. H. Gu, J. Schultz, X. L. Fan, F. Li, H. L. Ni, H. C. Cui, Y. K. Que, J. Chen, Li Zhou, H. B. Yao, Q. M. Zhu, H. Z. Shi, P. Wang, Jun-Bing Ma, Y. P. Tan, S. M. Wang, D. M. Xi, J. Yan, S. W. Han, J. Synodinos, X. F. Song, P. P. Xie, X. Y. Shen, P. F. Lang, J. W. Zhao, S. D. Gu, S. Q. Zhang, L. Z. Wang, A. M. Ma, H. S. Zhou, J. J. He, M. Z. Wang, H. L. Ding, M. H. Kelsey, Y. N. Guo, E. Torrence, H. S. Sun, X. C. Lou, J. Oyang, H. Y. Sheng, W. Dunwoodie, R. K. Yamamoto, Y. L. Han, P. Q. Li, M. L. Gao, W. G. Li, Xinglong Li, D. H. Zhang, J. Y. Zhang, X. Q. Li, S. Q. Tang, Pihong Zhao, W. J. Wisniewski, C. S. Yu, C. X. Yu, B. Lowery, W. X. Gu, R. Cowan, E. Prabhakar, Y. B. Chen, W. H. Toki, C. Y. Yang, N. D. Qi, H. M. Liu, A. J. Lankford, Y. F. Lai, H. F. Chen, X. C. Meng, W. F. Wang, J. Standifird, L. J. Pan, Michael J. Fero, Y. Y. Zhang, A. J. S. Smith, Y. S. Zhu, C. M. Yang, W. X. Gao, Z. Z. Du, W. G. Yan, S. J. Sun, E. C. Ma, Lei Zhang, H. L. Zhang, G. Rong, Z. Q. Yu, S.L. Olsen, T. H. Burnett, F. Wang, Z. P. Mao, and Q. Y. Li

Subjects
Physics, Pseudoscalar, Particle physics, Exponential decay
Published
2020
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15. ψ(2S) Hadronic Decays to Vector-Tensor Final States

Author

Dehong Zhang, W. G. Yan, I. Blum, F. Sun, A. J. Lankford, Qiyang Zhang, H. Z. Shi, Y. H. Yu, Chun-Hua Jiang, Q. M. Zhu, J. Z. Bai, X. F. Song, Lei Zhang, Joseph Izen, G. Rong, Y. Z. Huang, P. Wang, L. Z. Wang, W. G. Li, J. Panetta, Y. C. Zhu, Kai Yi, M. Z. Wang, L. P. Zhou, F. C. Porter, Z. G. Zhao, M. H. Kelsey, D. M. Xi, J. G. Lu, J. Yan, Jiming Yang, F. Wang, C. H. Luo, P. L. Wang, Z. Z. Du, H. S. Sun, L. J. Pan, Z. P. Mao, Meng Wang, Y. X. Ye, H. M. Liu, S. T. Xue, S. M. Wang, X. N. Li, X. C. Lou, H. Shen, P. Gratton, J. H. Liu, Q. H. Hu, J. Y. Zhang, T. Hu, F. Lu, Y. H. Xie, Y. G. Xie, Y. K. Que, J. Chen, G. Y. Hu, X. M. Xia, H. M. Hu, Michael Schernau, T. J. Wang, H. L. Ding, Z. W. Chai, W. Yang, J. Nie, J. G. Bian, D. H. Zhang, C. S. Yu, F. A. Harris, H. Y. Sheng, Z. Q. Yu, Y. Y. Zhang, C. Z. Yuan, X. Q. Hu, E. C. Ma, H. L. Zhang, Y. Y. Shao, S. D. Gu, S.L. Olsen, Cunfeng Wei, H. B. Li, C. S. Gao, D. G. Hitlin, J. W. Zhang, J. P. Liu, H. S. Mao, G. P. Chen, W. D. Li, S. Feng, Y. F. Gu, C. X. Yu, Shun-Qi Zhang, M. He, D. L. Shen, N. D. Qi, Y. B. Chen, X. C. Meng, W. J. Xiong, P. F. Lang, Jinxing Zheng, J. D. Huang, J. F. Qiu, Y. Jin, R. B. Li, J. Standifird, C. D. Qian, C. C. Zhang, M. G. Zhao, L. Y. Dong, G. P. Zhou, D. Kong, Cheng-Kui Li, W. X. Gu, Y. N. Guo, B. S. Cheng, W. H. Toki, Y. L. Han, W. R. Zhao, B. W. Shen, L. C. Lu, G. F. Xu, B. Lowery, D. Paluselli, J. He, S. Q. Gao, Z. J. Ke, W. Dunwoodie, X. R. Qi, J. L. Zhang, Y. Zhang, J. C. Li, P. P. Xie, J. C. Chen, R. Malchow, D. Li, C. M. Yang, J. W. Zhao, Y. Yuan, Y. S. Zhu, J. H. Gu, L. S. Zheng, P. Q. Li, X. Y. Shen, Z. P. Zheng, J. Oyang, X. Y. Zhang, R. G. Liu, L. S. Wang, M. H. Ye, G. L. Tong, B. A. Zhuang, M. L. Gao, S. Q. Tang, Wei Li, L. Y. Ding, Y. H. Qu, B. K. Kim, Y. F. Lai, H. F. Chen, S. W. Han, A. M. Ma, H. S. Zhou, H. W. Zhao, C. Y. Yang, Jun-Bing Ma, Xingzhu Cui, Z. T. Yu, D. X. Zhao, B. Y. Zhang, Y. Y. Wang, S. W. Ye, M. Weaver, J. L. Hu, Y. G. Wu, J. J. He, Y. Q. Chen, X. H. Li, J. Y. Lu, C. C. Xu, Y. B. Liu, and Xuan Yang

Subjects
Physics, Particle physics, Hadron, Tensor
Published
2020
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16. Corrosion characteristics of copper in static liquid lithium under high vacuum

Author

Mingguang Huang, X. C. Meng, Qian Yuzhong, B. Yu, Jiuyuan Li, Kevin Tritz, X. Gao, Huiqiu Deng, Z. Sun, Daniel Andruczyk, W. Xu, Jiansheng Hu, J.J. Huang, Guizhong Zuo, and Chao Xu

Subjects
Nuclear and High Energy Physics, Materials science, Ultra-high vacuum, Metallurgy, chemistry.chemical_element, 02 engineering and technology, Intergranular corrosion, 021001 nanoscience & nanotechnology, 01 natural sciences, Copper, 010305 fluids & plasmas, Corrosion, Coolant, Nuclear Energy and Engineering, chemistry, 0103 physical sciences, General Materials Science, Grain boundary, 0210 nano-technology, Dissolution, Plasma-facing material
Abstract

Copper (Cu) materials are extensively used as heat sinks and sealing gaskets in fusion devices because they have the properties of good thermal and electrical conductivity and high plasticity. Meanwhile, liquid lithium (Li) is considered as a potential blanket coolant and tritium breeder and/or plasma facing material in fusion devices. Studying the corrosion characteristics of Cu materials by liquid Li under extreme fusion conditions is important because the corrosion of Cu by liquid Li may affect simultaneous application of these materials in fusion devices. The corrosion behavior of Cu in static liquid Li at 620 K for 15 h under high vacuum was investigated. After exposure to liquid Li, the weight loss rate of Cu in liquid Li is 466.1 g m−2 h−1, which is equivalent to 458.7 mm⋅a−1 for the average corrosion depth rate. The entire surface of each specimen was seriously damaged. Visible grain boundary corrosion was observed on the surface of the specimens. Also, Cu debris entered the liquid Li from the corroded surface, resulting in considerable Cu loss from the specimen. These results demonstrate a corrosion protection grade of Cu in liquid Li of 10, Cu cannot withstand the corrosion of liquid Li under the given conditions. Additionally, the corrosion process of Cu in liquid Li at 620 K under high vacuum was studied using the Large-scale Atomic/Molecular Massively Parallel Simulator (LAMMPS). The results from these simulations indicate that the corrosion of Cu in liquid Li is induced via physical dissolution and intergranular corrosion, where intergranular corrosion is the dominant mechanism.

Published
2019
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17. Reduction of hydrogen content in deuterium plasma with mixed graphite and tungsten divertors in EAST

Author

X. C. Meng, Zhuang Huidong, Z. Sun, R. Maingi, Kevin Tritz, C.Y. Xie, Huang Ming, C. R. Wu, Jiansheng Hu, Jiuyuan Li, Guizhong Zuo, Wenbo Xu, Baoren Zhang, D. K. Mansfield, Jin Wu, and Yaowei Yu

Subjects
Materials science, Silicon, Hydrogen, Mechanical Engineering, Divertor, Analytical chemistry, chemistry.chemical_element, Plasma, Tungsten, 01 natural sciences, 010305 fluids & plasmas, Nuclear Energy and Engineering, chemistry, Deuterium, 0103 physical sciences, General Materials Science, Lithium, Graphite, 010306 general physics, Civil and Structural Engineering
Abstract

Reduction of hydrogen content in deuterium-fueled fusion plasmas is important not only to avoid diluting reacting core deuterons but also so as to allow the optimization of hydrogen-minority-heating efficiency in those fusion devices which employ ion-cyclotron-radio-frequency heating systems. In EAST, the amount of hydrogen released from plasma-facing components has been shown to depend strongly on both their composition and their temperature. As measured by thermal desorption spectroscopy, the hydrogen inventory in graphite – used in EAST as lower divertor material – has been determined to be >25 times larger than that of tungsten which comprises the upper divertor. This difference in hydrogen inventory is attributed mostly to the intrinsically porous nature of bulk graphite. Thus the main source of hydrogen release into EAST discharges was identified as the graphite tiles used in the lower divertor. The hydrogen content in EAST plasmas were clearly reduced by first employing a high-temperature vacuum baking of all graphite tiles and then renewing a 100–200 μm thick SiC coating before an EAST experimental run campaign. Subsequent active surface conditioning of all wall components with elemental silicon and then with elemental lithium were seem to again reduce the plasma hydrogen content significantly – with lithium proving to be more effective than silicon. Combining these several techniques, H/(H + D) levels as low as ∼3% have been achieved in EAST discharges. Additionally, the effects of lithium thickness on H surface implantation and retention has been re-examined semi-quantitatively using data from a previous run campaign. These data suggest that relatively thick Li films coated on the first wall can effectively isolate the rich source of hydrogen stored in the porous bulk of the underlying graphite from the deuterium-fueled plasma so as to minimize hydrogen release. Finally an operational maneuver whereby a diverted plasma is repetitively switched from an upper single null configuration to a lower single null configuration is presented. This switching maneuver has been shown to suppress hydrogen influx into a 35s-long EAST discharge by alternately mitigating the rise in divertor temperature.

Published
2018
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19. [Effect of VSL#3 and

Author

X C, Meng, Y N, Wang, P G, Yan, Y H, Li, H Y, Wang, J M, Qian, and J N, Li

Subjects
Mice, Inbred C57BL, Disease Models, Animal, Mice, Colon, Acute Disease, Animals, Colitis, Gastrointestinal Microbiome
Published
2019

20. Comparison of active impurity control between lithium and boron powder real-time injection in EAST

Author

Zhen Sun, Y Z Qian, Lei Zhang, W Xu, D H Zhang, Y M Duan, M Huang, J.S. Yuan, Z.L. Tang, Chong Li, Jin-Yong Hu, Rajesh Maingi, X C Meng, Wei Gao, and Guizhong Zuo

Subjects
inorganic chemicals, Materials science, Analytical chemistry, chemistry.chemical_element, Core (manufacturing), Plasma, Edge (geometry), Tungsten, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Superconducting tokamak, chemistry, Impurity, Lithium, Boron, Mathematical Physics
Abstract

The lithium and boron powder have been successfully real-time injected into Experimental Advanced Superconducting Tokamak (EAST) high-confinement (H-) mode discharges, showing good wall conditioning effects, especially on the impurities control. Both of lithium and boron powder particles are gravitationally accelerated into the upper edge of a upper single null discharge. The lithium powder real-time injection effectively reduced the tungsten impurity content both in the plasma edge and core. Contrary to the lithium injection, the boron injection mainly reduced the impurities content in the plasma core, while the impurities increased in the edge. This mainly due to that there was an edge harmonic mode stimulated by boron injection, providing sufficient particles transport. Moreover, the impurities control through boron injection has much wider operation windows than lithium powder injection. Furthermore, there was accumulative wall conditioning effects after sequential boron powder injection discharges.

Published
2021
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21. Real-time gas cooling of flowing liquid lithium limiter for the EAST

Author

J.J. Huang, Zhen Sun, Kevin Tritz, Bin Yu, Guizhong Zuo, Jiuyuan Li, X. Gao, X. C. Meng, Mingguang Huang, Xiaolin Yuan, Jin-Yong Hu, C.L. Li, W. Xu, Daniel Andruczyk, Y.Z. Qian, Qingxi Yang, and R. Maingi

Subjects
Materials science, Argon, Mechanical Engineering, Evaporation, Analytical chemistry, chemistry.chemical_element, Plasma, 01 natural sciences, 010305 fluids & plasmas, Nuclear Energy and Engineering, Heat flux, chemistry, 0103 physical sciences, Limiter, General Materials Science, Lithium, 010306 general physics, Ohmic contact, Helium, Civil and Structural Engineering
Abstract

A novel continuously flowing liquid lithium limiter (FLiLi) which employs an in-vessel electro-magnetic pump to drive liquid Li flowing on the surface of limiter has been successfully designed and tested in the experimental advanced superconducting tokamak (EAST) device in 2014. In order to better control the surface temperature, an upgraded design and the real-time gas cooling were performed in 2016. Two kinds of cooling gas, helium (He) and argon (Ar) were tested on the FLiLi system prior to the experiment. It was found that the cooling rates of He and Ar at 2.5 MPa are 34.2 ℃/min, 10.2 ℃/min or 31.7 ℃/kL and 28.1 ℃/kL, respectively. The cooling performance of He is more effective than Ar. Experimental results show that the real-time He cooling could effectively contain the FLiLi surface temperature increase and prevent the strong passive evaporation of lithium during plasma discharges. Limiter heat flux up to 0.2 MW/m2 was removed during ohmic discharge with 2.5 MPa He gas. Finally, Because of the upgraded design and real-time gas cooling, the surface of FLiLi was not damaged by heat flux after entire plasma discharge.

Published
2020
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22. Altered circulating endothelial progenitor cells in patients with keloid

Author

T. Liao, Kang Lin, Y.-H. Chen, Liang-Cai Wu, Shi-Yi Chen, Gang Chen, Damu Lin, Anyuan Wang, Weiyang Gao, Qingfeng Li, Guo-You Zhang, and X.-C. Meng

Subjects
Adult, Male, Vascular Endothelial Growth Factor A, 0301 basic medicine, medicine.medical_specialty, Adolescent, medicine.medical_treatment, CD34, Enzyme-Linked Immunosorbent Assay, Dermatology, Flow cytometry, Young Adult, 030207 dermatology & venereal diseases, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Keloid, Humans, Medicine, Progenitor cell, Child, skin and connective tissue diseases, Endothelial Progenitor Cells, medicine.diagnostic_test, business.industry, Growth factor, Kinase insert domain receptor, Middle Aged, Flow Cytometry, medicine.disease, Vascular Endothelial Growth Factor Receptor-2, Surgery, Vascular endothelial growth factor, Vascular endothelial growth factor A, 030104 developmental biology, chemistry, Case-Control Studies, embryonic structures, cardiovascular system, Cancer research, Female, business, circulatory and respiratory physiology
Abstract

Evidence has suggested that vascular endothelial growth factor (VEGF), a crucial growth factor in regulating endothelial progenitor cells (EPCs), plays a central role in keloid formation. However, the levels of circulating EPCs in patients with keloid have not yet been explored. The aim of this study was to determine the number of circulating EPCs in patients with keloid. Circulating EPCs (defined as CD45- CD34+CD133+VEGFR2+cells) and VEGF levels from 39 patients with keloid and 22 healthy controls (HCs) were assessed by flow cytometry and ELISA, respectively. EPCs were detectable in the peripheral blood of patients with keloid. The number of circulating EPCs and the levels of plasma VEGF were significantly higher in patients with keloid than in HCs. However, no correlation was found between the number of circulating EPCs and the serum VEGF levels. This study provides the first evidence that EPCs are increased in the peripheral blood of patients with keloid. Understanding the roles of EPCs in keloid fromation may lead to the development of novel therapeutic strategies for keloid.

Published
2015
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23. Improvement on the plasma performances via application of flowing lithium limiters in EAST tokamak

Author

Zhen Sun, Y. Z. Qian, C. L. Li, W. Xu, Xianzu Gong, Daniel Andruczyk, M. Huang, Jiuyuan Li, Rajesh Maingi, Jian Hu, Kevin Tritz, X. C. Meng, and Guizhong Zuo

Subjects
Tokamak, Materials science, chemistry, law, Nuclear engineering, Limiter, chemistry.chemical_element, Lithium, Plasma, Condensed Matter Physics, Mathematical Physics, Atomic and Molecular Physics, and Optics, law.invention
Published
2020
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24. Overview of lithium injection and flowing liquid lithium results from the US–China collaboration on EAST

Author

Zhen Sun, Andrew Shone, Daniel O'Dea, X. C. Meng, Guizhong Zuo, Aveek Kapat, Jin-Yong Hu, R. Maingi, Erik P. Gilson, W. Xu, Robert Lunsford, Daniel Andruczyk, Matthew Szott, Ahmed Diallo, Steven Stemmley, Kevin Tritz, Matthew Parsons, and Rabel Rizkallah

Subjects
Materials science, chemistry, Inorganic chemistry, chemistry.chemical_element, Lithium, Condensed Matter Physics, Liquid lithium, Mathematical Physics, Atomic and Molecular Physics, and Optics
Published
2020
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25. Multi-objective optimal dispatching of microgrid based on improved genetic algorithm

Author

Y. An, H. D. Chen, and X. C. Meng

Subjects
Mathematical optimization, Computer science, Genetic algorithm, Microgrid
Abstract

Aiming at the optimization problem of micro-grid energy dispatch, the environmental benefit, system operation and maintenance cost, start-stop cost and main grid electricity price are proposed as the objective function, and the influence of the actual operation constraints of micro-grid system and the distributed non-scheduled new energy are taken into account at the same time. The multi-objective optimal dispatching model of microgrid is constructed, and the model is solved based on improved genetic algorithm. The numerical simulation results show that compared with the traditional single-target scheduling method of microgrid, the optimal scheduling method of this paper is beneficial to the micro-grid in the process of scheduling decision-making to achieve the overall coordination of economic, environmental and social benefits of microgrid.

Published
2019
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26. Budd-Chiari syndrome: current perspectives and controversies

Author

L, Liu, X-S, Qi, Y, Zhao, H, Chen, X-C, Meng, and G-H, Han

Subjects
Humans, Budd-Chiari Syndrome, Portasystemic Shunt, Transjugular Intrahepatic, Liver Transplantation
Abstract

Budd-Chiari syndrome (BCS) is a rare disorder caused by hepatic venous outflow obstruction with a wide spectrum of etiologies. Clinical manifestations are so heterogeneous that the diagnosis should be considered in any patients with acute or chronic liver disease. Therapeutic modalities for BCS have improved dramatically during the last few years. The concept of a step-wise treatment strategy has been established, including anticoagulation, thrombolysis, percutaneous recanalization, transjugular intrahepatic portosystemic shunt, surgery and liver transplantation. However, this strategy is primarily based on experts' opinions and retrospective case series, rather than prospective randomized trials. Furthermore, an earlier use of TIPS has been proposed in selected cases because of a relatively high mortality from BCS patients who underwent medical therapy alone. Herein, we review the advances in the classification, etiology, clinical presentation, diagnosis and treatment of BCS.

Published
2016

27. Search for large extra dimensions in dielectron and diphoton production

Author

B. May, Emanuela Barberis, R. J. Madaras, K. Streets, Vipin Bhatnagar, H. Weerts, T. Heuring, S. A. Jerger, Bobby Samir Acharya, H. A. Neal, R. Snihur, Elemer Nagy, Anurag Gupta, A. S. Turcot, A. A. Mayorov, Y. Kulik, Jasvinder A. Singh, Wendy Taylor, A. Patwa, K. M. Mauritz, L. T. Goss, H. C. Shankar, F. Borcherding, V. Sorín, K. Yip, S. Youssef, V. Simak, V. N. Evdokimov, Alexander Leflat, P. Ermolov, M. Strovink, M. Merkin, M. I. Martin, Roger Moore, L. Stutte, Robert Hirosky, Pushpalatha C Bhat, V. S. Burtovoi, A.S. Dyshkant, Robert Kehoe, Gervasio Gomez, David Cutts, V. Zutshi, P. Padley, Alexey Volkov, M. Sosebee, J. Bantly, N.V. Mokhov, A. Bean, Gilvan Alves, Michael Begel, Chris Hays, S. Tentindo-Repond, R. L. McCarthy, H. Haggerty, Raymond Brock, Boaz Klima, J. McDonald, Miguel Mostafa, M. M. Baarmand, Sarah Catherine Eno, L. J. Pan, K. Gounder, James H Cochran, Mitchell Wayne, H. Schellman, J. M. Kohli, A. P. Heinson, D. Norman, A. V. Kozelov, Gustaaf Brooijmans, B. Gibbard, J. Thompson, S. R. Hou, L. Sawyer, K. Genser, Philip Baringer, W. E. Cooper, R. Van Kooten, M. A.C. Cummings, S. Willis, F. Nang, Andrew White, P. Grudberg, S. Feher, D. Shpakov, Z. Zhou, J. Solomon, R. Demina, P. Demine, A. Besson, B. Gómez, J. Rha, H. S. Mao, P. Gartung, Andrew Brandt, R. Engelmann, E. A. Kozlovsky, H.E. Miettinen, Z. H. Zhu, E. Popkov, M. R. Krishnaswamy, R. E. Hall, J. L. González Solís, Z. Casilum, V. A. Bezzubov, J. P. Negret, R. P. Smith, Michael Shupe, Y. Fisyak, C. Klopfenstein, M. Chung, Shashikant Dugad, Marvin Johnson, M. Roco, S. Krzywdzinski, B. Hoeneisen, G. Eppley, A. Baden, A. N. Galyaev, K. M. Chan, Dhiman Chakraborty, G. C. Blazey, G. Gutierrez, M. Buehler, H. Zheng, N. W. Reay, S. Grünendahl, Yu-tin Huang, J. Perkins, J. Sculli, M. Diesburg, J. Yu, E. G. Zverev, J. F. Bartlett, A. Goussiou, A. Para, Neeti Parashar, H. da Motta, D. Zieminska, S. Fuess, J. Estrada, Elizabeth Gallas, R. Partridge, T. McMahon, M. Bhattacharjee, R. Gilmartin, N. R. Stanton, V. Stolin, H. E. Montgomery, Sun Kee Kim, V. Buescher, A. Zylberstejn, Sergey Chekulaev, P. Hanlet, D. Coppage, V. S. Narasimham, L. Groer, Thomas G Trippe, F. Lehner, D. K. Cho, Pm Tuts, S. Duensing, J. M. Hauptman, Cecilia Elena Gerber, Orin I. Dahl, John Rutherfoord, R. Jesik, Haiyan Wang, Nikos Varelas, Meenakshi Narain, E. W. Anderson, A. V. Kotwal, Harrison Prosper, B. Knuteson, D. P. Stoker, V. V. Babintsev, B. Pawlik, Sharon Hagopian, Z. Yu, M. Zielinski, E. Shabalina, V. Gavrilov, Daniel R Claes, S.A. Kahn, Kenneth Johns, F. Stichelbaut, G. Ginther, Daniel Whiteson, Alexander Belyaev, S. Desai, Q. Z. Li, Stephen Wimpenny, P. Rubinov, G. A. Davis, K. W. Merritt, Jianming Qian, D. Casey, A. R. Clark, C. S. Mishra, J. Kotcher, T. Fahland, D. Edmunds, N. Sotnikova, Ron Lipton, B. G. Pope, R. J. Genik, M. Demarteau, G. Graham, A. Zieminski, James C. Green, Patrick Slattery, Allen Mincer, G. Briskin, D. Fein, M. Fortner, T. Marshall, D. A. Stoyanova, D. Denisov, V. Manankov, K. S. Hahn, Sebastian Grinstein, J. Womersley, Ricardo Piegaia, Jeffrey F. Krane, N. Graf, T. Yasuda, Don Lincoln, D. Buchholz, Darien Wood, Wagner Carvalho, E. Flattum, R. Yamada, H. D. Wahl, R. D. Schamberger, Greg Landsberg, L. Lueking, Sw. Banerjee, P. W. Balm, Daniel John Karmgard, M. Zanabria, Winston Ko, S. N. Gurzhiev, A. V. Kostritskiy, Mark Raymond Adams, D. Karmanov, Li Jingyuan, S. Negroni, C. Hebert, N. Amos, Heriberto Castilla-Valdez, Nicholas John Hadley, S. Blessing, S. Chopra, P. A. Rapidis, Sissel Hansen, J. T. White, Ariel Schwartzman, O. Peters, M. Paterno, K. Soustruznik, A. Boehnlein, H. L. Melanson, P. Z. Quintas, Ulrich Heintz, U. Bassler, J. V.D. Wirjawan, Scott Snyder, E. Smith, K. Del Signore, L. Coney, H. Jöstlein, Matthew Jones, N. Sen, J. D. Hobbs, J. Snow, J. H. Christenson, A. P. Vorobiev, E. Kajfasz, R. K. Shivpuri, Stephan Linn, David H. Adams, Gregory R Snow, R. A. Sidwell, N. Oshima, P. van Gemmeren, F. Canelli, M. Abolins, H. E. Fisk, S. Doulas, D. Hedin, Alberto Santoro, J. G.R. Lima, C. Lundstedt, Kaushik De, V. E. Kuznetsov, D. Toback, M. A. Kubantsev, R. W. Stephens, Vasken Hagopian, Suyong Choi, Steve Reucroft, E. J. Ramberg, S. M. Tripathi, Z. M. Wang, A. Bross, H. T. Diehl, G. Steinbrück, V. Oguri, H. Singh, Shuichi Kunori, P. Yamin, V. Vaniev, T. Rockwell, Iain Alexander Bertram, G. Di Loreto, Rajendran Raja, Lev Dudko, J. Ellison, A. K.A. Maciel, Gregorio Bernardi, Peter W. Draper, Michael Rijssenbeek, Srinivasan Rajagopalan, Hal Evans, Thomas Ferbel, Brad Abbott, Sergey Denisov, A. S. Ito, P. I. Goncharov, J. Warchol, C. Miao, B. Olivier, N. K. Mondal, F. Fleuret, Gordon Watts, V. Sirotenko, O. V. Eroshin, Phillip Gutierrez, Howard Gordon, K. C. Frame, N. Parua, V.V. Abramov, Arnaud Lucotte, Randy Ruchti, A. Jonckheere, Andre Sznajder, Yuri Gershtein, M. D. Peters, L. Oesch, L. Babukhadia, M. H.G. Souza, D. Mihalcea, B. Connolly, Richard Breedon, H. Greenlee, D. A. Wijngaarden, Michael A. Strauss, Suman Bala Beri, J. Linnemann, A. Juste, J. A. Wightman, N. I. Bojko, R. D. Martin, M. L. Stevenson, J. S. Hoftun, K. Davis, J. N. Butler, P. D. Grannis, H. Piekarz, B. Baldin, Y. Ducros, X. C. Meng, Sergey Kuleshov, S. Protopopescu, Victor Daniel Elvira, Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE), Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Pierre et Marie Curie - Paris 6 (UPMC), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), D0, Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), and D0 (Tevatron, IHEF, IOP, FNWI)

Subjects
Physics, Particle physics, Photon, Planck scale, 010308 nuclear & particles physics, Detector, FOS: Physical sciences, General Physics and Astronomy, Electron, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Phenomenology, High Energy Physics - Experiment (hep-ex), symbols.namesake, Extra dimensions, High Energy Physics - Phenomenology (hep-ph), Angular distribution, 0103 physical sciences, symbols, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Large extra dimension, Production (computer science), High Energy Physics::Experiment, 010306 general physics
Abstract

We report a search for effects of large extra spatial dimensions in ppbar collisions at a center-of-mass energy of 1.8 TeV with the DZero detector, using events containing a pair of electrons or photons. The data are in good agreement with the expected background and do not exhibit evidence for large extra dimensions. We set the most restrictive lower limits to date, at the 95% confidence level, on the effective Planck scale between 1.0 TeV and 1.4 TeV for several formalisms and numbers of extra dimensions., Comment: 6 pages, 2 figures, submitted to Phys. Rev. Lett

Published
2016
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28. Corrosion characterization of microarc oxidation coatings formed on Mg-7Li alloy

Author

J. G. Li, X. C. Meng, H. W. Wang, Ying Lv, Z. J. Zhu, and Z. J. Wei

Subjects
Materials science, Scanning electron microscope, Mechanical Engineering, Metallurgy, Alloy, Metals and Alloys, General Medicine, Permeation, engineering.material, Surfaces, Coatings and Films, Characterization (materials science), Dielectric spectroscopy, Corrosion, Coating, Mechanics of Materials, visual_art, Materials Chemistry, engineering, visual_art.visual_art_medium, Environmental Chemistry, Ceramic, Composite material
Abstract

Ceramic coatings with thickness of 27 µm were fabricated on Mg–7Li alloy in Na2SiO3–C6H18O24P6 solution by microarc oxidation (MAO). The morphology and phase composition of MAO coatings were characterized by scanning electron microscopy (SEM) and X-ray diffraction (XRD). The corrosion behavior of the bare and MAO coated Mg–7Li alloy was investigated by potentiodynamic polarization and electrochemical impedance spectroscopy (EIS). Results showed that the MAO coatings were composed of MgO, Li2O, and Mg2SiO4, and there existed some micropores on the coating surface with a diameter of 3–20 µm. The corrosion potential (Ecorr) and corrosion current density (Icorr) of the MAO coated alloy were about −1.4761 V and 7.204 × 10−7 A/cm2, respectively. The Ecorr of the MAO coated alloy increased by 109.6 mV and its Icorr decreased by three orders compared with that of the bare Mg–7Li alloy. The EIS plots indicated that the impedance of the MAO coated alloy was 15 times higher than that of the bare alloy. The fitting parameters showed that the resistance of the MAO coatings was far greater than that of the bare alloy. The dense intermediate layer and the transition layer of the MAO coatings acted as a barrier to hinder the proceeding of solution permeation, remarkably improving the corrosion resistance of the Mg–7Li alloy.

Published
2012
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29. Pressure fluctuation test and vortex observation in Francis turbines draft tube

Author

L Zhu, J G Zhang, H P Zhang, WP Wang, L Lu, Y Chen, and X C Meng

Subjects
Physics::Fluid Dynamics, Draft tube, Vibration, Physics, symbols.namesake, Cavitation, Specific speed, symbols, Head (vessel), Reynolds number, Mechanics, Hydraulic machinery, Vortex
Abstract

The pressure fluctuations in draft tube causes serious vibration and instability, which may affect the safe operation of turbines. In this paper, the pressure fluctuation of hydraulic turbine is studied by means of model test. Two model turbines with specific speed NQE0 of 0.1221 and 0.1178 are selected for experimental research, and pressure fluctuation measurement and vortex observation are carried out on the universal hydraulic machinery test stand under typical part-load and overload operating conditions. The influence of Reynolds number and Thoma number on the draft tube vortex was verified by adjusting the test head HM and tail water pressure pDT on the model test stand. The high-speed photography technique was applied to observe the vortex in the draft tube, meanwhile, the pressure fluctuation signal of the vortex was acquired and analysed. The peak-to-peak amplitude and the frequency of the pressure fluctuation are analysed and compared with the vortex zone morphology. The results show that, 1) the influence of Reynolds number on pressure fluctuation can generally be neglected in the range of Reynolds number Re>4×106; 2) pressure fluctuation may decrease with the Thoma number before critical cavitation in special overload conditions, indicating that the impact of cavitation on fluctuation is related to the shape of vortex rope; 3) resonance frequency is obtained at special part-load point, the resonant condition should be confirmed accurately due to the risk of system resonance.

Published
2019
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30. Evidence of ψ(3770) non-DD¯ decay to J/ψπ+π−

Author

S. L. Zang, H. Shen, R. Y. Li, Y.R. Tian, Jing Wang, Y. B. Zhao, S.L. Olsen, S. D. Gu, M. H. Ye, Q. Yue, Cunfeng Wei, Yingchun Zhu, Ning Zhou, J. W. Zhang, L. S. Wang, Z. J. Lu, L. Y. Dong, D. Tian, S. X. Du, M. L. Yan, G. S. Varner, Feng Shi, X. S. Jiang, W. B. Yan, Xiru Huang, J. C. Chen, G. L. Tong, B. A. Zhuang, Bing Zhou, Jiawei Zhao, Zheng Wang, Zhenyu Zhang, N. Wu, K. Li, Z. J. Ke, Guangzhao Zhou, Jun-Bing Ma, Xingzhu Cui, B.S. Zou, S. Q. Zhang, Z. A. Liu, Y. Ban, W. X. Gong, J. Z. Bai, Y. Z. Sun, Y. N. Guo, W. D. Li, Qiyang Zhang, Z. Y. Wang, J. Fang, L. S. Zheng, M. He, X. Tang, Xuan Zhang, X. Y. Shen, H. J. Lu, J. G. Lu, H. H. Li, D. L. Shen, L. P. Zhou, J. Z. Wang, H. Y. Zhang, J. F. Chang, P. Wang, X. C. Meng, Haiwen Liu, H. M. Hu, L. P. Fu, Z. P. Mao, C. X. Liu, Y. M. Dai, F. C. Ma, Z.J. Guo, W. R. Zhao, Y. Jin, G. S. Huang, T. Hu, XZ(蔡翔舟) Cai, J. Ying, J. Nie, J. Y. Zhang, Yiyun Zhang, D. P. Jin, X. Q. Li, M. L. Gao, M. Y. Gong, C. F. Liu, S.S. Sun, Zujian Wang, Jiang Changhui, Y. X. Ye, J. W. Zhao, G. W. Yu, J. G. Bian, Yudan Wang, S. Q. Tang, D. X. Zhao, B. Y. Zhang, Jiemin Li, T. Hong, B. X. Zhang, Hao-Ze Chen, Y. K. Heng, Y. Y. Zhang, Y. Q. Guo, C. C. Zhang, X. C. Zhong, Y. B. Chen, D. H. Zhang, J. He, L. Huang, X. M. Xia, J. F. Qiu, F. Lu, Q. J. Li, Y. F. Lai, Z. A. Zhu, W. F. Wang, Zhiyun Zheng, H. Y. Fu, Y. S. Dai, C. S. Gao, C. S. Yu, G. F. Xu, X. H. Mo, Jinxing Zheng, K. L. He, P. P. Zhao, S. W. Han, Y. Yuan, Y. S. Zhu, J. M. Zhang, J. C. Li, Y. C. Zhu, Lei Zhang, G. Rong, S. D. Yang, P. L. Wang, Meng Wang, H. X. Yang, F. A. Harris, Zhe Wang, Y.N. Gao, L. L. Ma, Fei-Fei Liu, H. S. Chen, C. D. Qian, F. Y. Li, Y. Zeng, J. P. Liu, G. A. Yang, Z. G. Zhao, W. G. Li, Fang Liu, Z. J. Sun, X.S. Li, Q. M. Zhu, Z. D. Nie, Y. C. Xu, M. Z. Wang, E. C. Ma, H. S. Sun, Haiping Peng, X. H. He, Y. P. Chu, X. B. Ji, Gongru Lu, S. P. Chi, K. J. Zhu, J. M. Yuan, S. Jin, G. Li, C. D. Fu, S. T. Xue, X. L. Luo, L. W. Song, Y. J. Zhang, S. S. Fang, Y. B. Liu, R. B. Li, J. Yang, X. X. Xie, H. Y. Sheng, N. D. Qi, Z. Z. Du, Z. X. Liu, R. G. Liu, and J. B. Liu

Subjects
Physics, Nuclear and High Energy Physics, Partial width, Nuclear magnetic resonance, Branching fraction, Electron–positron annihilation, Atomic physics
Abstract

Evidence of ψ ( 3770 ) decays to a non- D D ¯ final state is observed. A total of 11.8 ± 4.8 ± 1.3 ψ ( 3770 ) → J / ψ π + π − events are obtained from a data sample of 27.7 pb−1 taken at center-of-mass energies around 3.773 GeV using the BES-II detector at the BEPC. The branching fraction is determined to be BF ( ψ ( 3770 ) → J / ψ π + π − ) = ( 0.34 ± 0.14 ± 0.09 ) % , corresponding to the partial width of Γ ( ψ ( 3770 ) → J / ψ π + π − ) = ( 80 ± 33 ± 23 ) keV .

Published
2005
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31. Search for K0SK0S in J/ψ and ψ(2S) decays

Author

L. P. Zhou, Y. Yuan, Y. S. Zhu, Z. P. Mao, N. Wu, Z. Y. Yi, Zujian Wang, Jiang Changhui, X. H. Mo, L. S. Wang, M. H. Ye, Z. A. Liu, K. L. He, S. W. Han, J. M. Zhang, Y. Ban, J. Z. Bai, J. He, H. Y. Zhang, X. S. Jiang, Z. P. Zheng, Haiwen Liu, G. S. Huang, S. X. Du, W. R. Zhao, Feng Shi, J. Y. Zhang, M. L. Yan, Xiru Huang, G. L. Tong, Y. Jin, Xingzhu Cui, B. A. Zhuang, Y. K. Heng, Y. Y. Zhang, Z. Z. Du, Z. X. Liu, Guangzhao Zhou, S. D. Gu, Q. Yue, J. C. Li, Yingchun Zhu, X. Tang, Xuan Zhang, B.S. Zou, Z.Q. Zhang, Zheng Wang, Zhenyu Zhang, J. F. Chang, X. M. Xia, M. Y. Gong, J. C. Chen, Yiyun Zhang, J. Fang, L. S. Zheng, Xunchao Zhang, Juan Zhang, Z. D. Nie, Y. X. Ye, Y.R. Tian, Y. N. Guo, Y.N. Gao, M. L. Gao, H. S. Chen, J. B. Zhao, G. S. Varner, Qingying Jia, Z.J. Guo, S. L. Zang, J. Nie, X. H. He, Y. Q. Guo, Y.X. Yang, C. D. Qian, Q. J. Li, Qiyang Zhang, S. M. Li, Y. B. Chen, X. Y. Shen, Y. C. Zhu, Y. Xu, H. Y. Fu, Jun Chen, Bing Zhou, H.Q. Zheng, H.S. Xu, Y. F. Lai, L. Huang, L. L. Ma, Y. M. Wu, S.L. Olsen, W. F. Wang, Y. B. Zhao, P. Wang, Y. S. Dai, Bo Xin, J. G. Lu, P. L. Wang, P. P. Zhao, Yudan Wang, S. Q. Zhang, C. S. Gao, X. J. Zhao, J. Chen, J. Z. Wang, W. D. Li, Jinxing Zheng, Meng Wang, H. X. Yang, Y. Z. Sun, T. Hu, L. Y. Dong, Y. F. Liang, H.B. Liao, XZ(蔡翔舟) Cai, D. P. Jin, Lei Zhang, Z. A. Zhu, F. Yang, G. Rong, R. Y. Li, G. F. Xu, H. M. Hu, H. Qin, D. X. Zhao, Cunfeng Wei, D. H. Zhang, C. S. Yu, S.S. Sun, J. W. Zhao, S. D. Yang, G. W. Yu, Lianyou Shan, Ning Zhou, B. Y. Zhang, Jun-Bing Ma, Hangxu Li, Jiemin Li, J. W. Zhang, B. X. Zhang, Hao-Ze Chen, J. G. Bian, X. C. Zhong, Z. Y. Ren, F. A. Harris, W. G. Li, D. Y. Wang, W. B. Yan, X. Y. Ma, W. X. Gong, F. Lu, F. Y. Li, J. P. Liu, Fei-Fei Liu, X. Shi, H. L. Dai, F. C. Ma, Q. M. Zhu, Y. Zeng, M. Z. Wang, H. S. Sun, Haiping Peng, C. Z. Yuan, Zhe Wang, J. F. Qiu, L. P. Fu, C. L. Luo, Nongjian Tao, C. C. Zhang, Z. G. Zhao, Fang Liu, Z. J. Sun, X.S. Li, Gongru Lu, S. P. Chi, K. J. Zhu, J. M. Yuan, Shang Lunlin, S. Jin, G. Li, X.L. Li, C. D. Fu, Z. Y. Deng, Y. P. Chu, X. B. Ji, S. T. Xue, X. L. Luo, Z. Y. Wang, S. Z. Wang, L. W. Song, M. L. Chen, Y. J. Zhang, R. B. Li, X. Q. Li, H. Y. Sheng, L. H. Yi, N. D. Qi, S. S. Fang, Y. B. Liu, J. Yang, M. He, D. L. Shen, R. G. Liu, J. B. Liu, C. X. Liu, X. X. Xie, and X. C. Meng

Subjects
Physics, Nuclear physics, Nuclear and High Energy Physics, Spectrometer, Electron–positron annihilation, Atomic physics
Abstract

The CP violating processes J / ψ → K 0 S K 0 S and ψ (2 S )→ K 0 S K 0 S are searched for using samples of 58 million J / ψ and 14 million ψ (2 S ) events collected with the Beijing spectrometer at the Beijing electron–positron collider. No signal is observed, and upper limits on the decay branching ratios are determined to be B (J/ψ→K 0 S K 0 S ) −6 and B (ψ(2S)→K 0 S K 0 S ) −6 at the 95% confidence level.

Published
2004
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32. Measurements of the mass and full-width of the ηc meson

Author

Yudan Wang, B.S. Zou, S. Q. Tang, S. T. Xue, Qiyang Zhang, G. R. Lu, F. Li, F. C. Ma, Z. Y. Wang, Z. A. Zhu, P. Wang, Y. M. Dai, Z. D. Nie, J. F. Qiu, Q. M. Zhu, Y. C. Xu, M. Z. Wang, G. Li, Z. G. Zhao, Q. J. Li, H. S. Sun, N. Wu, J. Nie, C. F. Liu, Yingchun Zhu, L. Huang, Y. S. Dai, C. S. Gao, Jinxing Zheng, Z. J. Sun, E. C. Ma, J. G. Lu, C. D. Fu, Zheng Wang, Yang Tian, Haiping Peng, X. C. Lou, Y. Jin, Jing Wang, Y. B. Zhao, X. H. He, M. He, D. Paluselli, F. Lu, D. L. Shen, X.S. Li, S. D. Yang, T. Hu, X. C. Meng, H. M. Hu, XZ(蔡翔舟) Cai, J. C. Li, J. C. Chen, S. L. Zang, S. X. Du, Feng Shi, C. X. Liu, L. W. Song, Y. C. Zhu, S. D. Gu, T. Hong, M. L. Yan, K. Li, Q. Yue, P. L. Wang, J. Fang, L. S. Zheng, S.L. Olsen, L. S. Wang, Meng Wang, Guangzhao Zhou, M. L. Gao, Z. J. Guo, Jiawei Zhao, C. Z. Yuan, Y. Zeng, B. D. Jones, S.S. Sun, X. S. Jiang, Zhe Wang, C. D. Qian, Z. J. Ke, X. Tang, M. H. Ye, J. Z. Wang, D. P. Jin, F. A. Harris, Y. Yuan, Y. S. Zhu, Y. Q. Guo, Z. P. Zhang, Y. B. Chen, H. Shen, Chun-Hua Jiang, X. M. Xia, K. L. He, X. C. Zhong, S. W. Han, G. S. Varner, Zujian Wang, R. Y. Li, P. P. Zhao, D. H. Zhang, C. S. Yu, L. P. Fu, Y. F. Lai, L. Y. Dong, J. M. Zhang, H. F. Chen, Y. J. Zhang, W. F. Wang, X. Y. Shen, H. Y. Sheng, Houbing Lu, C. C. Zhang, H. Y. Fu, Cunfeng Wei, Ning Zhou, Lei Zhang, H. Y. Zhang, Bing Zhou, J. W. Zhang, Joseph Izen, G. Rong, M. Y. Gong, G. S. Huang, J. Ying, J. Y. Zhang, W. R. Zhao, F. Liu, G. F. Xu, W. Dunwoodie, N. D. Qi, Y. K. Heng, Y. Y. Zhang, S. Jin, Z. P. Zheng, Y. N. Gao, Y. N. Guo, D. Tian, J. G. Bian, H. S. Chen, J. F. Chang, Z. J. Lu, S. Q. Zhang, X. Q. Li, Y. Z. Sun, Z. A. Liu, Yiyun Zhang, Xiru Huang, G. L. Tong, B. A. Zhuang, Y. X. Ye, X. Y. Zhang, Y. Ban, B. X. Zhang, R. G. Liu, J. B. Liu, L. P. Zhou, Z. P. Mao, R. B. Li, Y. P. Chu, X. B. Ji, J. Z. Bai, J. Yang, S. S. Fang, Z. Z. Du, D. Kong, Z. X. Liu, S. P. Chi, Y. B. Liu, K. J. Zhu, J. M. Yuan, X. L. Luo, Jun-Bing Ma, J. J. He, W. X. Gong, X. X. Xie, H. X. Yang, J. P. Liu, G. A. Yang, W. G. Li, H. M. Liu, X. H. Mo, Xingzhu Cui, Jie Chen, W. D. Li, H. H. Li, J. W. Zhao, G. W. Yu, W. B. Yan, Fang Liu, D. X. Zhao, B. Y. Zhang, and Jiemin Li

Subjects
Nuclear physics, Physics, Nuclear and High Energy Physics, Meson, Electron–positron annihilation, Mass spectrum, Full width, High Energy Physics - Experiment
Abstract

In a sample of 58 million $J/\psi$ events collected with the BES II detector, the process J/$\psi\to\gamma\eta_c$ is observed in five different decay channels: $\gamma K^+K^-\pi^+\pi^-$, $\gamma\pi^+\pi^-\pi^+\pi^-$, $\gamma K^\pm K^0_S \pi^\mp$ (with $K^0_S\to\pi^+\pi^-$), $\gamma \phi\phi$ (with $\phi\to K^+K^-$) and $\gamma p\bar{p}$. From a combined fit of all five channels, we determine the mass and full-width of $\eta_c$ to be $m_{\eta_c}=2977.5\pm1.0 ({stat.})\pm1.2 ({syst.})$ MeV/$c^2$ and $\Gamma_{\eta_c} = 17.0\pm3.7 ({stat.})\pm7.4 ({syst.})$ MeV/$c^2$., Comment: 9 pages, 2 figures and 4 table. Submitted to Phys. Lett. B

Published
2003
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33. Quasi-Model-Independent Search for New HighpTPhysics at D0

Author

P. Demine, S. Youssef, V. Zutshi, K. S. Hahn, D. Cutts, D. Shpakov, H. Zheng, P. Hanlet, S. Krzywdzinski, Wagner Carvalho, Greg Landsberg, Andrew White, T. Nunnemann, B. Baldin, D. Coppage, Y. Ducros, X. C. Meng, J. A. Wightman, N. I. Bojko, A. Zylberstejn, R. D. Martin, Sergey Kuleshov, Victor Daniel Elvira, J. S. Hoftun, K. Davis, J. N. Butler, P. D. Grannis, H. Piekarz, M. Paterno, K. Soustruznik, M. Buehler, Alexander Belyaev, F. Lehner, N. Parua, V.V. Abramov, H. Greenlee, F. Borcherding, P. Yamin, Robert Hirosky, M. Jaffré, Patrick Slattery, S. Reucroft, S. Desai, G. Steinbrück, V. Oguri, E. G. Zverev, D. Bauer, Miguel Mostafa, R. Snihur, John Hobbs, N. R. Stanton, Rajendran Raja, M. M. Baarmand, H. L. Melanson, P. Z. Quintas, Erik Ramberg, T. McMahon, G. Eppley, H. D. Wahl, Arnaud Lucotte, Sarah Catherine Eno, M. Fortner, N. W. Reay, A. Bross, O. Peters, G. A. Davis, Serban Protopopescu, F. Nang, J. H. Christenson, Brad Abbott, Meenakshi Narain, Pierre Petroff, J. Perkins, Yu-tin Huang, Gustaaf Brooijmans, J. Warchol, Ulrich Heintz, H. Jöstlein, M. Zanabria, Winston Ko, Nikos Varelas, Randy Ruchti, R. K. Shivpuri, Frank Filthaut, A. N. Galyaev, D. Fein, M. Diesburg, G. Gutierrez, Gilvan Alves, V. S. Narasimham, L. Groer, Thomas G Trippe, H. da Motta, J. G.R. Lima, Bobby Samir Acharya, H. A. Neal, Howard Gordon, David H. Adams, K. C. Frame, H. E. Fisk, D. K. Cho, Peter W. Draper, Pushpalatha C Bhat, S. N. Gurzhiev, A. Baden, C. S. Mishra, R. Jesik, G. C. Blazey, T. Fahland, R. Illingworth, P. van Gemmeren, D. P. Stoker, K. Gounder, L. J. Pan, R. Yamada, W. E. Cooper, S. Duensing, Don Lincoln, F. Canelli, P. W. Balm, S. Doulas, J. Snow, Daniel R Claes, Vasken Hagopian, M. A.C. Cummings, A. S. Ito, P. I. Goncharov, H. Weerts, T. Yasuda, Z. M. Wang, Emanuela Barberis, Wendy Taylor, Vipin Bhatnagar, Daniel John Karmgard, K. M. Chan, M. Sosebee, Dhiman Chakraborty, Kaushik De, D. A. Stoyanova, A. S. Turcot, A. V. Kostritskiy, C. Hebert, S. P. Denisov, John Rutherfoord, Lev Dudko, J. T. Linnemann, V. Sorín, B. Hoeneisen, J. V.D. Wirjawan, Lee Sawyer, A. Patwa, Allan G Clark, Roger Moore, L. Lueking, R. Partridge, E. Flattum, M. R. Krishnaswamy, Gervasio Gomez, C. Luo, Mary Beth Adams, C. Miao, Viatcheslav Stolin, B. Olivier, E. Kajfasz, Sissel Hansen, K. Yip, E. Popkov, B. G. Pope, M. Bhattacharjee, Z. Zhou, J. Solomon, Michael Begel, K. Del Signore, Matthew Jones, S. Chopra, S. Fuess, J. Rha, C. Lundstedt, A. Para, L. T. Goss, M. H.G. Souza, Charles Leggett, James C. Green, Elizabeth Gallas, Haiyan Wang, F. Fleuret, H. S. Mao, Sergey Chekulaev, S.A. Kahn, Andrew Brandt, Sharon Hagopian, R. Engelmann, M. Merkin, L. Stutte, Jinhong Yu, Ariel Schwartzman, E. Smith, R. Van Kooten, Vladimir Gavrilov, M. Abolins, M. Demarteau, S. M. Tripathi, Jing Li, S. Feher, K. Genser, A. Besson, P. M. Tuts, V. E. Kuznetsov, L. Coney, Y. Fisyak, E. A. Kozlovsky, H.E. Miettinen, Gordon Watts, Melissa Ridel, A.S. Dyshkant, V. Sirotenko, F. Stichelbaut, Heriberto Castilla-Valdez, R. W. Stephens, C. Klopfenstein, K. W. Merritt, Elizaveta Shabalina, L. Duflot, N. Sen, Marvin Johnson, O. V. Eroshin, G. Graham, A. Zieminski, Phillip Gutierrez, K. Papageorgiou, N. K. Mondal, H. T. Diehl, J. F. Bartlett, Stephen Wimpenny, N.V. Mokhov, H. E. Montgomery, H. Singh, V. Manankov, A. V. Kozelov, T. Rockwell, Iain Alexander Bertram, B. Pawlik, J. T. White, A. Boehnlein, Michael Rijssenbeek, K. A. Johns, A. P. Heinson, M. Gao, T. Marshall, R. Piegaia, A. A. Mayorov, Neeti Parashar, P. A. Rapidis, J. Ellison, Raymond Brock, Boaz Klima, S. A. Jerger, V. N. Evdokimov, R. Beuselinck, D. Casey, J. Kotcher, B. Knuteson, R. A. Sidwell, Alexander Leflat, A. Jonckheere, A. Abdesselam, A. P. Vorobiev, Chris Hays, M. Strovink, R. E. Hall, J. L. González Solís, Darien Wood, V. A. Bezzubov, Nicholas John Hadley, J. P. Negret, R. P. Smith, M. Zielinski, N. Sotnikova, Stephan Linn, R. J. Genik, V. Buescher, Z. Casilum, U. Bassler, H. Haggerty, Suyong Choi, A. Bean, Ron Lipton, S. Blessing, D. Norman, N. Graf, M. I. Martin, N. Oshima, Daria Zieminska, Scott Snyder, R. D. Schamberger, Michael Shupe, J. Womersley, Z. Yu, R. L. McCarthy, Daniel Whiteson, E. W. Anderson, M. A. Kubantsev, J. Estrada, S. Willis, R. Gilmartin, S. Tentindo-Repond, G. Di Loreto, J. McDonald, Q. Z. Li, A. V. Kotwal, Harrison Prosper, D. Karmanov, Gregorio Bernardi, D. Denisov, Philip Baringer, M. Roco, S. Negroni, D. Buchholz, Srinivasan Rajagopalan, Hal Evans, Thomas Ferbel, Alberto Santoro, Sebastian Grinstein, S. Banerjee, Seong Keun Kim, R. J. Madaras, D. Toback, V. Simak, T. C. Bacon, P. Padley, R. Demina, P. Rubinov, J. M. Hauptman, Cecilia Elena Gerber, Alexey Volkov, James H Cochran, V. V. Babintsev, D. Hedin, G. Ginther, A. K.A. Maciel, M. Chung, Anna Goussiou, Jianming Qian, N. Amos, Mitchell Wayne, H. Schellman, J. M. Kohli, G. Briskin, Jeffrey F. Krane, Gregory R Snow, Stefan Grünendahl, J. Thompson, K. M. Mauritz, P.F. Ermolov, S. R. Hou, B. Gómez, V. S. Burtovoi, Shashikant Dugad, Shuichi Kunori, V. Vaniev, B. May, Anurag Gupta, Michael A. Strauss, Jasvinder A. Singh, Suman Bala Beri, T. Heuring, A. Juste, D. Mihalcea, Elemer Nagy, B. Connolly, Richard Breedon, Y. Kulik, D. A. Wijngaarden, D. Edmunds, Andre Sznajder, Yuri Gershtein, M. D. Peters, L. Oesch, and L. Babukhadia

Subjects
Physics, Particle physics, 010308 nuclear & particles physics, Tevatron, General Physics and Astronomy, 01 natural sciences, Standard Model, Nuclear physics, 0103 physical sciences, High Energy Physics::Experiment, Fermilab, Sensitivity (control systems), Electroweak scale, Nuclear Experiment, 010306 general physics
Abstract

We apply a quasi-model-independent strategy ("Sleuth") to search for new high p_T physics in approximately 100 pb^-1 of ppbar collisions at sqrt(s) = 1.8 TeV collected by the DZero experiment during 1992-1996 at the Fermilab Tevatron. We systematically analyze many exclusive final states and demonstrate sensitivity to a variety of models predicting new phenomena at the electroweak scale. No evidence of new high p_T physics is observed.

Published
2001
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34. Ratio of Jet Cross Sections ats=630GeV and 1800 GeV

Author

K. M. Mauritz, P.F. Ermolov, D. P. Stoker, V. S. Burtovoi, M. Chung, T. Heuring, M. Bhattacharjee, D. Edmunds, P. A. Rapidis, Sharon Hagopian, A. Jonckheere, A. P. Vorobiev, Stephan Linn, C. S. Mishra, Andre Sznajder, Yuri Gershtein, M. D. Peters, N. Oshima, Daria Zieminska, R. Piegaia, D. Shpakov, P. Demine, H. Zheng, P. Hanlet, D. Coppage, R. D. Schamberger, D. A. Stoyanova, A. S. Turcot, Howard Gordon, K. C. Frame, S. Reucroft, A. A. Mayorov, R. L. McCarthy, M. Strovink, Elemer Nagy, L. Oesch, L. Babukhadia, T. Fahland, M. A. Kubantsev, Robert Hirosky, Pushpalatha C Bhat, Gervasio Gomez, D. Buchholz, Vasken Hagopian, K. Gounder, Anna Goussiou, M. A.C. Cummings, B. Hoeneisen, Lee Sawyer, H. Weerts, Z. M. Wang, R. Snihur, Michael Begel, K. Genser, Shuichi Kunori, V. Vaniev, B. Pawlik, S. Youssef, H. E. Fisk, Lev Dudko, Gregory R Snow, B. G. Pope, Y. Kulik, L. J. Pan, Haiyan Wang, R. Demina, D. Casey, S.A. Kahn, J. Kotcher, D. Mihalcea, B. Connolly, M. Roco, E. Flattum, S. Chopra, K. W. Merritt, J. Womersley, Richard Breedon, M. Demarteau, G. Gutierrez, J. F. Bartlett, Gilvan Alves, B. May, V. Manankov, N. Graf, K. Streets, Vipin Bhatnagar, Robert Kehoe, V. Zutshi, S. Fuess, M. H.G. Souza, T. Rockwell, Iain Alexander Bertram, V. Simak, D. Karmanov, S. Negroni, Z. Zhou, J. Solomon, R. Partridge, V. S. Narasimham, L. Groer, Thomas G Trippe, E. Popkov, A. N. Galyaev, G. Eppley, E. J. Ramberg, Ariel Schwartzman, E. Smith, K. M. Chan, Dhiman Chakraborty, H. E. Montgomery, Y. Fisyak, Alexander Belyaev, Vladimir Gavrilov, Michael Rijssenbeek, Gordon Watts, Elizaveta Shabalina, D. A. Wijngaarden, J. Rha, V. Sirotenko, H. S. Mao, H. da Motta, J. G.R. Lima, P. Yamin, Marvin Johnson, P. Padley, A. S. Ito, Z. Yu, Patrick Slattery, O. V. Eroshin, Daniel Whiteson, A. V. Kozelov, Phillip Gutierrez, Bobby Samir Acharya, H. A. Neal, H. C. Shankar, Anurag Gupta, Alexey Volkov, Suyong Choi, Michael A. Strauss, Peter W. Draper, Heriberto Castilla-Valdez, V. N. Evdokimov, J. Warchol, J. T. White, J. T. Linnemann, V. Sorín, K. Yip, D. K. Cho, S. P. Denisov, James H Cochran, E. G. Zverev, Jasvinder A. Singh, R. Gilmartin, R. K. Shivpuri, J. Snow, Mitchell Wayne, Ulrich Heintz, F. Stichelbaut, L. Stutte, Jinhong Yu, H. Jöstlein, A.S. Dyshkant, H. L. Melanson, P. Z. Quintas, Chris Hays, M. R. Krishnaswamy, M. Buehler, W. E. Cooper, S. Duensing, Suman Bala Beri, M. Diesburg, V.V. Abramov, Andrew White, N. R. Stanton, V. A. Bezzubov, J. P. Negret, R. P. Smith, Matthew Jones, A. Juste, B. Baldin, L. Lueking, Y. Ducros, A. Para, M. Abolins, J. H. Christenson, H. Schellman, J. M. Kohli, U. Bassler, David H. Adams, P. Grudberg, Sergey Chekulaev, Alice Bean, Michael Shupe, Arnaud Lucotte, J. Estrada, Meenakshi Narain, N. K. Mondal, H. T. Diehl, H. Singh, K. Del Signore, R. Jesik, X. C. Meng, John Hobbs, N. Parua, Randy Ruchti, D. R. Claes, A. Boehnlein, P. van Gemmeren, Alberto Santoro, A. V. Kotwal, Harrison Prosper, F. Canelli, S. Desai, J. Ellison, A. K.A. Maciel, Seong Keun Kim, D. Toback, M. Sosebee, Stefan Grünendahl, J. Thompson, Sergey Kuleshov, P. M. Tuts, M. Merkin, P. Rubinov, J. M. Hauptman, Cecilia Elena Gerber, V. E. Kuznetsov, R. W. Stephens, V. V. Babintsev, J. Bantly, P. I. Goncharov, G. Ginther, S. Doulas, Jianming Qian, S. A. Jerger, C. Miao, B. Olivier, Raymond Brock, Boaz Klima, Andrew Brandt, S. R. Hou, Victor Daniel Elvira, G. Briskin, R. Engelmann, E. A. Kozlovsky, J. A. Wightman, H.E. Miettinen, D. Norman, A. Leflat, Jeffrey F. Krane, S. Willis, N. I. Bojko, M. I. Martin, R. D. Martin, B. Gómez, M. L. Stevenson, J. S. Hoftun, K. Davis, J. N. Butler, P. D. Grannis, H. Piekarz, S. Tentindo-Repond, G. Di Loreto, J. McDonald, Z. H. Zhu, Kaushik De, Philip Baringer, Shashikant Dugad, S. Banerjee, Gregorio Bernardi, D. Denisov, S. M. Tripathi, V. Buescher, Srinivasan Rajagopalan, Hal Evans, Thomas Ferbel, E. W. Anderson, Q. Z. Li, Stephen Wimpenny, A. R. Clark, Allen Mincer, Sebastian Grinstein, T. Marshall, A. V. Kostritskiy, Darien Wood, Sissel Hansen, Nicholas John Hadley, L. Coney, N. Sen, S. Blessing, S. N. Gurzhiev, Scott Snyder, R. J. Madaras, B. Gibbard, Viatcheslav Stolin, Yu-tin Huang, J. Sculli, Nikos Varelas, C. Lundstedt, D. Hedin, Neeti Parashar, M. Zielinski, V. Oguri, Gustaaf Brooijmans, Elizabeth Gallas, T. McMahon, F. Fleuret, R. Van Kooten, S. Feher, A. Besson, K. A. Johns, G. Graham, A. Zieminski, R. A. Sidwell, J. V.D. Wirjawan, E. Kajfasz, G. Steinbrück, Rajendran Raja, Brad Abbott, M. Fortner, N. W. Reay, J. Perkins, Emanuela Barberis, L. T. Goss, A. Baden, G. C. Blazey, H. Haggerty, R. Yamada, H. D. Wahl, N. Amos, M. Zanabria, Winston Ko, Orin I. Dahl, John Rutherfoord, Mary Beth Adams, James C. Green, K. S. Hahn, D. Cutts, O. Peters, Wagner Carvalho, Greg Landsberg, M. Paterno, K. Soustruznik, F. Borcherding, T. Yasuda, Miguel Mostafa, M. M. Baarmand, Wendy Taylor, A. Patwa, Sarah Catherine Eno, F. Nang, Richard B. Lipton, Roger Moore, P. Gartung, C. Klopfenstein, B. Knuteson, N. Sotnikova, R. J. Genik, D. Fein, Don Lincoln, P. W. Balm, Daniel John Karmgard, C. Hebert, Jing Li, N.V. Mokhov, A. P. Heinson, R. E. Hall, J. L. González Solís, Z. Casilum, S. Krzywdzinski, A. Zylberstejn, F. Lehner, H. Greenlee, A. Bross, G. A. Davis, and Serban Protopopescu

Subjects
Quantum chromodynamics, Absolute magnitude, Physics, Particle physics, Jet (fluid), 010308 nuclear & particles physics, General Physics and Astronomy, 01 natural sciences, Nuclear physics, Cross section (physics), Square root, 0103 physical sciences, Transverse momentum, High Energy Physics::Experiment, Nuclear Experiment, 010306 general physics
Abstract

The D0 Collaboration has measured the inclusive jet cross section in barpp collisions at square root of s = 630 GeV. The results for pseudorapidities (eta)

Published
2001
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35. Ratios of Multijet Cross Sections inpp¯Collisions at√s=1.8TeV

Author

P. Demine, H. Zheng, P. Hanlet, Robert Hirosky, D. Coppage, P. A. Rapidis, A. Jonckheere, A. P. Vorobiev, R. Demina, G. Gutierrez, Gilvan Alves, Stephan Linn, B. May, T. Rockwell, Iain Alexander Bertram, V. S. Narasimham, E. T. Goss, Thomas G Trippe, N. Oshima, S. Reucroft, Michael Rijssenbeek, Daria Zieminska, R. D. Schamberger, M. H.G. Souza, Anurag Gupta, M. A. Kubantsev, H. E. Montgomery, J. Snow, V. N. Evdokimov, G. Steinbrück, Chris Hays, Elizabeth Gallas, T. McMahon, Ulrich Heintz, M. Abolins, Jasvinder A. Singh, Z. Yu, Y. Fisyak, H. Jöstlein, V. A. Bezzubov, J. P. Negret, Bobby Samir Acharya, R. P. Smith, H. A. Neal, Daniel Whiteson, H. C. Shankar, Rajendran Raja, J. T. Linnemann, V. Sorín, K. Yip, Jinhong Yu, E. Groer, A.S. Dyshkant, M. Diesburg, Marvin Johnson, Michael Shupe, E. Oesch, A. V. Kozelov, D. Buchholz, S. Fuess, Andrew White, Pushpalatha C Bhat, Brad Abbott, H. L. Melanson, P. Z. Quintas, J. Estrada, C. Klopfenstein, M. Bhattacharjee, E. Popkov, K. Del Signore, H. E. Fisk, N. K. Mondal, A. A. Mayorov, R. K. Shivpuri, E. Coney, H. T. Diehl, H. Singh, K. Gounder, P. Grudberg, Anna Goussiou, A. V. Kotwal, Harrison Prosper, A. Boehnlein, K. A. Johns, S. Desai, E. G. Zverev, M. A.C. Cummings, M. Strovink, B. Hoeneisen, Sharon Hagopian, D. A. Stoyanova, A. S. Turcot, J. Ellison, A. K.A. Maciel, Lee Sawyer, S. P. Denisov, N.V. Mokhov, T. Heuring, J. H. Christenson, David H. Adams, D. R. Claes, Gregory R Snow, P. M. Tuts, V. E. Kuznetsov, Z. Zhou, J. Solomon, R. W. Stephens, John Hobbs, Gervasio Gomez, K. M. Mauritz, P. van Gemmeren, A. V. Kostritskiy, M. R. Krishnaswamy, Alice Bean, A. P. Heinson, Neeti Parashar, Shuichi Kunori, P.F. Ermolov, S. Doulas, Sissel Hansen, Vladimir Gavrilov, B. Knuteson, Michael Begel, Elemer Nagy, Haiyan Wang, V. Vaniev, A. Para, M. Zielinski, R. J. Madaras, F. Canelli, E. Lueking, Sergey Chekulaev, Suyong Choi, V. S. Burtovoi, S.A. Kahn, Kaushik De, M. E. Stevenson, Gordon Watts, Meenakshi Narain, V. Sirotenko, O. I. Dabi, N. Sen, E. Stutte, R. Gilmartin, T. Fahland, R. E. Hall, R. Piegaia, J. V.D. Wirjawan, K. Genser, M. Demarteau, N. Sotnikova, Z. Casilum, R. J. Genik, Wendy Taylor, A. Patwa, F. Fleuret, R. Snihur, K. Streets, Vipin Bhatnagar, J. M. Hauptman, R. Partridge, R. Van Kooten, S. Feher, A. Besson, E. Kajfasz, S. M. Tripathi, Cecilia Elena Gerber, G. Di Loreto, D. Hedin, E. J. Ramberg, M. Merkin, D. P. Stoker, Heriberto Castilla-Valdez, D. Fein, V. Simak, O. V. Eroshin, Gregorio Bernardi, D. Denisov, V. V. Babintsev, G. Ginther, Roger Moore, Y. Kulik, P. Padley, Alexey Volkov, G. Graham, A. Zieminski, M. Sosebee, E. Flattum, Phillip Gutierrez, Don Lincoln, P. W. Balm, Srinivasan Rajagopalan, Hal Evans, Thomas Ferbel, James H Cochran, Mitchell Wayne, H. Schellman, J. M. Kohli, Jianming Qian, J. Rha, J. E. González Solís, H. S. Mao, Stefan Grünendahl, S. Chopra, R. Eipton, Daniel John Karmgard, P. Gartung, J. Thompson, S. R. Hou, G. Briskin, Stephen Wimpenny, V. Oguri, P. Yamin, B. Gómez, C. Hebert, A. R. Clark, Alexander Belyaev, S. N. Gurzhiev, Howard Gordon, R. A. Sidwell, Z. H. Zhu, T. Marshall, Shashikant Dugad, J. Bantly, K. C. Frame, Ariel Schwartzman, E. Smith, Jeffrey F. Krane, Gustaaf Brooijmans, Viatcheslav Stolin, V. Buescher, K. M. Chan, Dhiman Chakraborty, J. Warchol, M. Chung, Patrick Slattery, Jing Li, Raymond Brock, K. W. Merritt, P. I. Goncharov, Darien Wood, C. Lundstedt, Boaz Klima, E. W. Anderson, U. Bassler, J. F. Bartlett, Andrew Brandt, R. Engelmann, V. Manankov, B. Pawlik, Q. Z. Li, S. Krzywdzinski, C. S. Mishra, Peter W. Draper, G. Eppley, J. Womersley, Allen Mincer, D. Casey, Nicholas John Hadley, J. Kotcher, E. A. Kozlovsky, H.E. Miettinen, D. Norman, N. Amos, D. Karmanov, S. Blessing, S. Negroni, Sebastian Grinstein, A. Zylberstejn, F. Lehner, H. Greenlee, Scott Snyder, C. Miao, B. Olivier, Alberto Santoro, Seong Keun Kim, S. Willis, D. Toback, H. da Motta, P. Rubinov, N. Graf, J. G.R. Lima, A. N. Galyaev, Vasken Hagopian, A. Bross, D. K. Cho, H. Weerts, Z. M. Wang, Lev Dudko, W. E. Cooper, S. Duensing, H. D. Wahl, M. Zanabria, M. Fortner, N. W. Reay, G. A. Davis, Serban Protopopescu, Winston Ko, A. S. Ito, E. J. Pan, J. Perkins, O. Peters, B. Gibbard, V.V. Abramov, T. Yasuda, Matthew Jones, Emanuela Barberis, Arnaud Lucotte, F. Stichelbaut, Yu-tin Huang, J. Sculli, N. Parua, Randy Ruchti, Nikos Varelas, H. Haggerty, R. L. McCarthy, M. Roco, A. Baden, G. C. Blazey, R. Yamada, John Rutherfoord, B. Baldin, Mary Beth Adams, Y. Ducros, James C. Green, X. C. Meng, F. Borcherding, Sergey Kuleshov, Victor Daniel Elvira, J. A. Wightman, M. Buehler, N. I. Bojko, Miguel Mostafa, R. D. Martin, M. M. Baarmand, Sarah Catherine Eno, J. S. Hoftun, K. Davis, J. N. Butler, P. D. Grannis, N. R. Stanton, H. Piekarz, F. Nang, S. Youssef, R. Jesik, K. S. Hahn, D. Cutts, Robert Kehoe, V. Zutshi, Wagner Carvalho, Greg Landsberg, M. Paterno, K. Soustruznik, S. A. Jerger, A. Leflat, D. Mihalcea, B. Connolly, Richard Breedon, M. I. Martin, S. Tentindo-Repond, J. McDonald, Philip Baringer, S. Banerjee, B. G. Pope, Elizaveta Shabalina, J. T. White, D. A. Wijngaarden, Michael A. Strauss, Suman Bala Beri, A. Juste, D. Edmunds, Andre Sznajder, Yuri Gershtein, M. D. Peters, L. Babukhadia, and D. Shpakov

Subjects
Quantum chromodynamics, Physics, Particle physics, 010308 nuclear & particles physics, Astrophysics::High Energy Astrophysical Phenomena, Tevatron, General Physics and Astronomy, Jet (particle physics), 01 natural sciences, law.invention, Nuclear physics, Renormalization, Transverse plane, law, 0103 physical sciences, High Energy Physics::Experiment, Fermilab, 010306 general physics, Collider, Bar (unit)
Abstract

We report on a study of the ratio of inclusive three-jet to inclusive two-jet production cross sections as a function of total transverse energy in p (p) over bar collisions at it center-of-mass energy roots = 1.8 TeV, using data collected with the DO detector during the 1992-1993 run of the Fermilab Tevatron Collider. The measurements are used to deduce preferred renormalization scales in perturbative O(alpha (3)(s)) QCD calculations in modeling soft-jet emission.

Published
2001
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36. Inclusive Jet Production inpp¯Collisions

Author

M. Merkin, Raymond Brock, Boaz Klima, R. Beuselinck, D. Norman, S. Willis, A. N. Galyaev, D. K. Cho, R. Illingworth, W. E. Cooper, S. Duensing, Pushpalatha C Bhat, G. Eppley, Robert Hirosky, B. May, Anupam Gupta, D. Buchholz, C. Klopfenstein, Vipin Bhatnagar, D. Bauer, Stephen Wimpenny, K. Gounder, B. G. Pope, M. A.C. Cummings, B. Hoeneisen, N. Parua, V.V. Abramov, H. da Motta, J. G.R. Lima, R. Demina, G. Gutierrez, R. Snihur, D. Mihalcea, B. Connolly, Richard Breedon, F. Borcherding, E. Coney, Gilvan Alves, E. Duflot, A. S. Ito, V. Simak, Bobby Samir Acharya, H. A. Neal, M. Jaffré, Ulrich Heintz, V. S. Narasimham, T. Marshall, Kenneth Johns, Anna Goussiou, V. Oguri, F. Stichelbaut, Elizaveta Shabalina, R. Partridge, N.V. Mokhov, Thomas G Trippe, J. T. Linnemann, V. Sorín, H. E. Melanson, Jasvinder A. Singh, D. A. Wijngaarden, H. Jöstlein, P. Padley, Alexey Volkov, Gustaaf Brooijmans, T. C. Bacon, Haiyan Wang, T. Nunnemann, B. Baldin, K. Yip, A. P. Heinson, S.A. Kahn, Arnaud Lucotte, M. Diesburg, Andrew White, J. Warchol, R. J. Madaras, M. Demarteau, Y. Ducros, Darien Wood, Heriberto Castilla-Valdez, D. P. Stoker, K. W. Merritt, E. Sawyer, James H Cochran, Jinhong Yu, S. N. Gurzhiev, E. Groer, R. L. McCarthy, R. E. Hall, B. Knuteson, J. T. White, Nicholas John Hadley, Shuichi Kunori, A.S. Dyshkant, F. Fleuret, Z. Casilum, Michael A. Strauss, P. A. Rapidis, Gregory R Snow, Randy Ruchti, L. Lueking, Mitchell Wayne, E. Stutte, H. Schellman, J. M. Kohli, Emanuela Barberis, V. Vaniev, A. P. Vorobiev, M. Buehler, C. S. Mishra, S. Blessing, X. C. Meng, E. Popkov, Scott Snyder, A. Jonckheere, K. Del Signore, A. A. Mayorov, Matthew Jones, S. Krzywdzinski, R. Van Kooten, M. Roco, J. F. Bartlett, Elizabeth Gallas, T. McMahon, N. Sotnikova, K. M. Mauritz, P. Demine, V. Manankov, N. R. Stanton, L. T. Goss, T. Heuring, Stefan Grünendahl, Sergey Kuleshov, S. Feher, A. Besson, R. J. Genik, J. Thompson, R. K. Shivpuri, J. Snow, M. Strovink, N. Oshima, H. Zheng, Charles Leggett, P. Hanlet, J. Rha, J. E. González Solís, S. R. Hou, John Hobbs, Daria Zieminska, Vasken Hagopian, D. Coppage, P. M. Tuts, Victor Daniel Elvira, V. E. Kuznetsov, A. Zylberstejn, K. M. Chan, Dhiman Chakraborty, F. Lehner, H. Greenlee, G. Graham, D. R. Claes, P. van Gemmeren, P.F. Ermolov, H. Weerts, Z. M. Wang, Miguel Mostafa, R. W. Stephens, B. Gómez, A. Zieminski, R. Jesik, S. Doulas, Lev Dudko, J. Womersley, M. A. Kubantsev, J. A. Wightman, Shashikant Dugad, D. Hedin, Kaushik De, Sergey Chekulaev, Ricardo Piegaia, H. Haggerty, M. M. Baarmand, Elemer Nagy, Sarah Catherine Eno, M. Bhattacharjee, H. D. Wahl, M. Zanabria, G. A. Davis, Serban Protopopescu, H. S. Mao, N. I. Bojko, S. Reucroft, T. Fahland, R. D. Martin, E. J. Ramberg, Winston Ko, M. Abolins, D. Karmanov, R. A. Sidwell, P. Yamin, O. Peters, Sharon Hagopian, Alexander Belyaev, D. Fein, S. Negroni, V. S. Burtovoi, Viatcheslav Stolin, Y. Kulik, S. M. Tripathi, Don Lincoln, A. Leflat, A. V. Kostritskiy, E. Flattum, J. S. Hoftun, K. Davis, J. N. Butler, P. W. Balm, S. Fuess, Daniel John Karmgard, P. D. Grannis, M. I. Martin, K. Papageorgiou, T. Rockwell, Iain Alexander Bertram, N. K. Mondal, H. Piekarz, Sissel Hansen, Suman Bala Beri, S. Chopra, M. Fortner, C. Hebert, T. Yasuda, Wendy Taylor, A. Bross, N. W. Reay, A. Abdesselam, H. T. Diehl, Ariel Schwartzman, G. Steinbrück, Michael Rijssenbeek, A. Patwa, J. Perkins, Allan G Clark, Roger Moore, N. Amos, Peter W. Draper, Patrick Slattery, H. Singh, S. Youssef, E. Smith, S. Tentindo-Repond, Melissa Ridel, A. Juste, N. Sen, Rajendran Raja, M. Sosebee, J. McDonald, D. A. Stoyanova, A. S. Turcot, A. Boehnlein, M. Chung, V. Zutshi, R. D. Schamberger, Y. Fisyak, Gervasio Gomez, Vladimir Gavrilov, F. Nang, Richard B. Lipton, Philip Baringer, Yu-tin Huang, Marvin Johnson, Michael Begel, Howard Gordon, K. C. Frame, Brad Abbott, Pierre Petroff, V. N. Evdokimov, D. Shpakov, A. V. Kozelov, J. Ellison, A. K.A. Maciel, C. Lundstedt, Gordon Watts, Nikos Varelas, K. Genser, V. Sirotenko, K. S. Hahn, D. Edmunds, Sergey Denisov, V. Buescher, E. W. Anderson, D. Cutts, Andre Sznajder, M. R. Krishnaswamy, Yuri Gershtein, O. V. Eroshin, Q. Z. Li, S. A. Jerger, M. D. Peters, P. I. Goncharov, A. Para, B. Pawlik, J. V.D. Wirjawan, C. Miao, B. Olivier, L. Oesch, Sebastian Grinstein, L. Babukhadia, Wagner Carvalho, M. H.G. Souza, Phillip Gutierrez, Chris Hays, V. A. Bezzubov, H. E. Montgomery, J. P. Negret, Greg Landsberg, Sw. Banerjee, E. Kajfasz, Suyong Choi, Z. Yu, Daniel Whiteson, D. Casey, R. P. Smith, J. Kotcher, Michael Shupe, N. Graf, M. Paterno, K. Soustruznik, P. Z. Quintas, J. Estrada, J. H. Christenson, David H. Adams, Alice Bean, F. Canelli, A. Baden, A. V. Kotwal, Andrew Brandt, R. Engelmann, G. C. Blazey, Harrison Prosper, S. Desai, E. A. Kozlovsky, H.E. Miettinen, R. Yamada, G. Di Loreto, E. G. Zverev, John Rutherfoord, Gregorio Bernardi, D. Denisov, C. Luo, Mary Beth Adams, Srinivasan Rajagopalan, Hal Evans, Thomas Ferbel, James C. Green, Meenakshi Narain, S. E. Linn, Neeti Parashar, M. Zielinski, H. E. Fisk, L. J. Pan, Z. Zhou, J. Solomon, R. Gilmartin, M. Gao, U. Bassler, Alberto Santoro, Seong Keun Kim, D. Toback, P. Rubinov, J. M. Hauptman, Cecilia Elena Gerber, V. V. Babintsev, G. Ginther, Jianming Qian, G. Briskin, Jeffrey F. Krane, and Li Jingyuan

Subjects
Quantum chromodynamics, Physics, Particle physics, 010308 nuclear & particles physics, Tevatron, General Physics and Astronomy, Parton, Jet (particle physics), 7. Clean energy, 01 natural sciences, Nuclear physics, Cross section (physics), Distribution function, Pseudorapidity, 0103 physical sciences, High Energy Physics::Experiment, Fermilab, Nuclear Experiment, 010306 general physics
Abstract

We report a new measurement of the pseudorapidity (eta) and transverse-energy (Et) dependence of the inclusive jet production cross section in pbar b collisions at sqrt(s) = 1.8 TeV using 95 pb**-1 of data collected with the DZero detector at the Fermilab Tevatron. The differential cross section d^2sigma/dEt deta is presented up to |eta| = 3, significantly extending previous measurements. The results are in good overall agreement with next-to-leading order predictions from QCD and indicate a preference for certain parton distribution functions.

Published
2001
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37. The BES upgrade

Author

G. S. Huang, X. C. Meng, J. Y. Zhang, J. Standifird, W. G. Yan, J. Oyang, Jun-Bing Ma, J. Schultz, M.H. Kelsey, J. Z. Bai, L. S. Wang, B. Yang, P. Zhang, Y. K. Heng, Y. Y. Zhang, Jun Wang, Chunmei Zhang, J. Li, Joseph Izen, H. Luo, Y. Yuan, Y. S. Zhu, B. W. Shen, Y. Q. Chen, Hao-Ze Chen, Z.R. Wan, Z. Q. Xu, H. Y. Sheng, Jiming Yang, H.G. Han, M. G. Zhao, X.M. Chu, C. X. Yu, Qiyang Zhang, Y. W. Liu, P. Wang, H. S. Mao, Zhengguo Zhao, G. Y. Hu, T. J. Wang, N. D. Qi, W.H. Li, G. P. Chen, M. Mandelkern, C. Z. Yuan, L. Y. Dong, Xinchou Lou, He-Run Yang, S.T. Xu, C.S. Yang, H. Z. Shi, B. S. Cheng, H. M. Liu, Dehong Zhan, X. F. Song, D. P. Stoker, P. F. Lang, M. Weaver, Y.Y. Du, D. Paluselli, R. B. Li, Y.Y. Jiang, D. Kong, H.Y. Lu, Qian Liu, L. Zhang, L. Z. Wang, B. K. Kim, X. Q. Hu, Y. H. Xie, J. H. Gu, Ming-Han Ye, Qi Liu, T. Hu, M. L. Gao, C. C. Xu, H. W. Zhao, Y. K. Que, J. Chen, Li Zhou, H. M. Hu, Cheng-Kui Li, J. C. Chen, R. Malchow, D. X. Zhao, B. Y. Zhang, Jiurong Liu, Y. Z. Sun, Y. Y. Wang, J. Fang, L. S. Zheng, Wei Li, C. D. Qian, M. He, H. B. Li, W. Y. Ding, C. Y. Yang, X. Y. Shen, S. D. Gu, Yuanbo Chen, X. L. Luo, D. L. Shen, D.J. Yang, Z. Z. Du, S. J. Sun, Xingzhu Cui, Z. X. Liu, B. D. Jones, Y. H. Qu, W. J. Xiong, J. L. Hu, Yue-Yuan Zhang, Q. Xie, H. L. Ni, S. Q. Tang, C. M. Yang, G. S. Varner, Y. Jin, G. A. Yang, K. J. Zhu, W. X. Gu, W. H. Toki, X. Xiao, S.C. Zheng, S. Q. Gao, Z. J. Ke, Z. P. Zheng, W. Dunwoodie, Y. F. Lai, P. P. Xie, C.C. Zhong, X. Ju, G. L. Tong, B. A. Zhuang, H. Shen, X. H. Mo, J. F. Qiu, L.G. Mu, Y. P. Tan, P. Q. Li, W. G. Li, J.S. Lou, S. M. Wang, Junguang Lu, Cunfeng Wei, H. L. Ding, S. W. Han, R. G. Liu, Y. J. Sun, Frank C. Porter, Jun Liu, B. Schmid, Q. H. Hu, H. S. Zhou, P. Gratton, J. Panetta, Y. C. Zhu, X. M. Xia, Xingguo Li, F. Sun, Z. W. Chai, J. Zhao, X. F. Zhou, Meng Wang, F. A. Harris, H.C. Bao, D. M. Xi, J. Yan, Lin. Zhang, Y. H. Yu, G. Rong, Jiang Changhui, E. C. Ma, H. L. Zhang, Stephen L. Olsen, D. H. Zhang, C. S. Yu, A. J. Lankford, X. N. Li, D. G. Hitlin, J. H. Liu, Michael Schernau, W. Yang, J. Nie, Y. Y. Shao, C. S. Gao, Jinxing Zheng, J. D. Huang, F. Wang, Z. P. Mao, Q. M. Zhu, H. S. Sun, Z. Q. Yu, Y. N. Guo, F. Y. Li, J. W. Zhang, W. Z. Fang, B. Lowery, Y. B. Chen, Y. L. Han, S. Q. Luo, I. Blum, Y. Z. Huang, Q. Y. Li, J. He, S. Q. Zhang, W.L. Yao, G.P. Zho, L. J. Pan, Bing Zhou, W. R. Zhao, X. R. Qi, Yuehong Xie, H. B. Hu, P. L. Wang, and Xuan Yang

Subjects
Physics, Nuclear and High Energy Physics, Spectrometer, Physics::Instrumentation and Detectors, Detector, Solenoid, Particle accelerator, Computer Science::Digital Libraries, Computer Science::Computers and Society, Particle detector, law.invention, Nuclear physics, Upgrade, Beijing, law, Physics::Accelerator Physics, High Energy Physics::Experiment, Collider, Instrumentation
Abstract

The Beijing Spectrometer (BES) detector is a general purpose solenoid detector at the Beijing Electron Positron Collider (BEPC) in Beijing, China, that has collected large numbers of J/ψ, ψ′, Ds, D and τ events. In this paper, we describe the recent upgrade of the initial BES detector (BESI) to the improved BESII detector.

Published
2001
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38. Cross Section forb-Jet Production inp¯pCollisions at√s=1.8TeV

Author

S. Grinstein, M. Abolins, V. Sirotenko, Ulrich Heintz, A. Juste, C. S. Mishra, N. K. Mondal, H. T. Diehl, Elizaveta Shabalina, H. Singh, G. Gutierrez, Y. Ducros, P. Gutierrez, K. Del Signore, M. Merkin, M. Sosebee, A. V. Kostritskiy, Stephen Wimpenny, M. Demarteau, V. Gavrilov, B. May, M. H.G. Souza, T. Heuring, A. V. Kotwal, J. Ellison, A. K.A. Maciel, S. N. Gurzhiev, P. M. Tuts, E. Ramberg, R. Snihur, H. L. Melanson, Y. Kulik, Anurag Gupta, B. Baldin, V. A. Bezzubov, H. Jöstlein, D. Lincoln, Jasvinder A. Singh, R. P. Smith, E. Nagy, S. A. Jerger, D. A. Stoyanova, A. S. Turcot, A. Bross, J. Bantly, Raymond Brock, Boaz Klima, D. Fein, L. Coney, Darien Wood, A. Leflat, H. E. Montgomery, Michael Shupe, Z. Yu, N. Sen, R. K. Shivpuri, Gervasio Gomez, V. E. Kuznetsov, R. W. Stephens, S. Feher, Daniel Whiteson, J. Estrada, C. Lundstedt, P. Rubinov, Nicholas John Hadley, H. E. Fisk, M. Jones, R. L. McCarthy, Andrew White, N. Amos, Harrison Prosper, Michael Begel, S. Tentindo-Repond, J. McDonald, S. P. Denisov, J. A. Wightman, S. Desai, S. Blessing, Andrew Brandt, R. Engelmann, A. A. Mayorov, P. W. Balm, Robert Hirosky, N. I. Bojko, D. Stoker, Daniel John Karmgard, D. Mihalcea, Scott Snyder, G. Watts, Suyong Choi, S. Willis, P. Padley, M. Strauss, Alexey Volkov, Philip Baringer, F. Lehner, P. Grudberg, D. Buchholz, R. D. Martin, P. C. Bhat, James H Cochran, S. Banerjee, Mitchell Wayne, H. Schellman, J. M. Kohli, M. R. Krishnaswamy, E. A. Kozlovsky, H.E. Miettinen, J. T. White, R. Demina, C. Hebert, T. Rockwell, Iain Alexander Bertram, Emanuela Barberis, Gilvan Alves, M. Buehler, F. Fleuret, G. Steinbrück, V.V. Abramov, M. L. Stevenson, J. Thompson, Michael Rijssenbeek, S. R. Hou, Anna Goussiou, K. M. Chan, Dhiman Chakraborty, N. Mokhov, M. Strovink, H. S. Mao, Heriberto Castilla-Valdez, X. C. Meng, E. Popkov, G. Di Loreto, Ron Lipton, L. Lueking, A. N. Galyaev, J. Yu, N. R. Stanton, Z. H. Zhu, V. S. Narasimham, Thomas G Trippe, Shashikant Dugad, V. Stolin, J. Womersley, B. Connolly, Richard Breedon, Alexander Belyaev, John Hobbs, J. S. Hoftun, K. Davis, J. N. Butler, V. N. Evdokimov, J. Warchol, B. Gómez, Gregory R Snow, P. Z. Quintas, H. D. Wahl, B. Hoeneisen, P. D. Grannis, H. Piekarz, Gregorio Bernardi, M. Bhattacharjee, Sergey Chekulaev, G. Brooijmans, K. Soustruznik, Srinivasan Rajagopalan, H. Greenlee, S. Doulas, V. Buescher, D. K. Cho, E. G. Zverev, R. Van Kooten, Patrick Slattery, Thomas Ferbel, K. M. Mauritz, A. Besson, E. W. Anderson, P.F. Ermolov, Winston Ko, P. I. Goncharov, Jing Li, Kaushik De, P. van Gemmeren, G. Eppley, T. Yasuda, S. Duensing, Daniel R Claes, V. Sorín, E. Kajfasz, Sharon Hagopian, D. Norman, Arnaud Lucotte, S. Youssef, C. Miao, B. Olivier, R. E. Hall, S. M. Tripathi, H. da Motta, J. G.R. Lima, S. Fuess, G. Graham, V. S. Burtovoi, W. E. Cooper, S. Kuleshov, Allen Mincer, M. Zanabria, R. J. Madaras, A. Zieminski, T. Marshall, V. D. Elvira, K. Genser, Meenakshi Narain, Neeti Parashar, L. Groer, D. Hedin, Robert Kehoe, V. Zutshi, L. T. Goss, O. Peters, A. Para, R. Piegaia, E. Gallas, E. Smith, S. Negroni, D. Karmanov, A. Zylberstejn, H. Haggerty, N. Parua, Randy Ruchti, R. Yamada, M. Zielinski, Howard Gordon, M. Mostafa, L. Sawyer, J. F. Bartlett, J. H. Christenson, S. Chopra, T. McMahon, K. C. Frame, R. A. Sidwell, C. Hays, P. A. Rapidis, B. Gibbard, Yu-tin Huang, J. Sculli, J. Snow, C. Klopfenstein, Vasken Hagopian, H. Weerts, Z. M. Wang, F. Stichelbaut, G. A. Davis, K. W. Merritt, Nikos Varelas, Serban Protopopescu, Lev Dudko, D. A. Wijngaarden, S. K. Kim, A. Schwartzman, A. S. Ito, M. Roco, J. V. D. Wirjawan, V. Manankov, V. Simak, A. P. Heinson, M. Chung, O. V. Eroshin, B. Knuteson, J. L. González Solís, K. A. Johns, Brad Abbott, Z. Casilum, N. Sotnikova, R. J. Genik, Wendy Taylor, A. Patwa, Allan G Clark, Roger Moore, P. Gartung, Bobby Samir Acharya, H. A. Neal, H. C. Shankar, J. T. Linnemann, K. Yip, A.S. Dyshkant, T. Fahland, M. Fortner, N. W. Reay, J. Perkins, S. Hansen, M. Peters, A. Boehnlein, L. Stutte, V. Oguri, Y. Fisyak, M. M. Baarmand, Sarah Catherine Eno, H. Evans, Marvin Johnson, F. Nang, A. Baden, A. V. Kozelov, G. C. Blazey, Orin I. Dahl, John Rutherfoord, Mary Beth Adams, James C. Green, K. S. Hahn, D. Cutts, Wagner Carvalho, Greg Landsberg, M. Paterno, Suman Bala Beri, A. Jonckheere, D. Edmunds, Andre Sznajder, Yuri Gershtein, L. Oesch, L. Babukhadia, L. J. Pan, Z. Zhou, J. Solomon, Qiming Li, E. Flattum, R. Gilmartin, S. Krzywdzinski, J. M. Hauptman, Cecilia Elena Gerber, V. V. Babintsev, G. Ginther, Jianming Qian, G. Briskin, Jeffrey F. Krane, U. Bassler, Alberto Santoro, D. Toback, M. Diesburg, S. Grünendahl, R. Jesik, D. Zieminska, Shuichi Kunori, V. Vaniev, P. Yamin, D. Shpakov, P. Demine, H. Zheng, P. Hanlet, D. Coppage, F. Borcherding, D. Denisov, S. Reucroft, Peter W. Draper, B. Pawlik, A. P. Vorobiev, R. Raja, Stephan Linn, N. Oshima, R. D. Schamberger, M. A. Kubantsev, K. Gounder, M. A.C. Cummings, Haiyan Wang, S.A. Kahn, D. Casey, J. Kotcher, N. Graf, J. P. Negret, M. I. Martin, David H. Adams, Alice Bean, F. Canelli, K. Streets, Vipin Bhatnagar, R. Partridge, J. Rha, and B. G. Pope

Subjects
Quantum chromodynamics, Physics, Particle physics, 010308 nuclear & particles physics, Tevatron, General Physics and Astronomy, Jet (particle physics), 01 natural sciences, Bottom quark, law.invention, Nuclear physics, Cross section (physics), law, 0103 physical sciences, Physics::Accelerator Physics, High Energy Physics::Experiment, Rapidity, Fermilab, 010306 general physics, Collider
Abstract

Bottom quark production in pbar-p collisions at sqrt(s)=1.8 TeV is studied with 5 inverse picobarns of data collected in 1995 by the DO detector at the Fermilab Tevatron Collider. The differential production cross section for b jets in the central rapidity region (|y(b)| < 1) as a function of jet transverse energy is extracted from a muon-tagged jet sample. Within experimental and theoretical uncertainties, DO results are found to be higher than, but compatible with, next-to-leading-order QCD predictions.

Published
2000
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39. Measurement of the Total Cross Section for Hadronic Production bye+e−Annihilation at Energies between 2.6–5 GeV

Author

J. Z. Bai, Y. Ban, J. G. Bian, G. P. Chen, H. F. Chen, J. Chen, J. C. Chen, Y. Chen, Y. B. Chen, Y. Q. Chen, B. S. Cheng, X. Z. Cui, H. L. Ding, L. Y. Dong, Z. Z. Du, W. Dunwoodie, C. S. Gao, M. L. Gao, S. Q. Gao, J. H. Gu, S. D. Gu, W. X. Gu, Y. F. Gu, Y. N. Guo, Z. J. Guo, S. W. Han, Y. Han, F. A. Harris, J. He, J. T. He, K. L. He, M. He, Y. K. Heng, G. Y. Hu, H. M. Hu, J. L. Hu, Q. H. Hu, T. Hu, X. Q. Hu, G. S. Huang, Y. Z. Huang, J. M. Izen, C. H. Jiang, Y. Jin, B. D. Jones, X. Ju, Z. J. Ke, D. Kong, Y. F. Lai, P. F. Lang, C. G. Li, D. Li, H. B. Li, J. Li, J. C. Li, P. Q. Li, R. B. Li, W. Li, W. G. Li, X. H. Li, X. N. Li, H. M. Liu, J. Liu, R. G. Liu, Y. Liu, X. C. Lou, F. Lu, J. G. Lu, X. L. Luo, E. C. Ma, J. M. Ma, R. Malchow, H. S. Mao, Z. P. Mao, X. C. Meng, J. Nie, S. L. Olsen, D. Paluselli, L. J. Pan, N. D. Qi, X. R. Qi, C. D. Qian, J. F. Qiu, Y. H. Qu, Y. K. Que, G. Rong, Y. Y. Shao, B. W. Shen, D. L. Shen, H. Shen, X. Y. Shen, H. Y. Sheng, H. Z. Shi, X. F. Song, F. Sun, H. S. Sun, Y. Sun, Y. Z. Sun, S. Q. Tang, W. Toki, G. L. Tong, G. S. Varner, F. Wang, L. S. Wang, L. Z. Wang, M. Wang, P. Wang, P. L. Wang, S. M. Wang, T. J. Wang, Y. Y. Wang, C. L. Wei, N. Wu, Y. G. Wu, D. M. Xi, X. M. Xia, P. P. Xie, Y. Xie, Y. H. Xie, G. F. Xu, S. T. Xue, J. Yan, W. G. Yan, C. M. Yang, C. Y. Yang, H. X. Yang, J. Yang, W. Yang, X. F. Yang, M. H. Ye, S. W. Ye, Y. X. Ye, C. S. Yu, C. X. Yu, G. W. Yu, Y. H. Yu, Z. Q. Yu, C. Z. Yuan, Y. Yuan, B. Y. Zhang, C. Zhang, C. C. Zhang, D. H. Zhang, Dehong Zhang, H. L. Zhang, J. Zhang, J. W. Zhang, L. Zhang, L. S. Zhang, P. Zhang, Q. J. Zhang, S. Q. Zhang, X. Y. Zhang, Y. Y. Zhang, D. X. Zhao, H. W. Zhao, Jiawei Zhao, J. W. Zhao, M. Zhao, W. R. Zhao, Z. G. Zhao, J. P. Zheng, L. S. Zheng, Z. P. Zheng, B. Q. Zhou, G. P. Zhou, H. S. Zhou, L. Zhou, K. J. Zhu, Q. M. Zhu, Y. C. Zhu, Y. S. Zhu, and B. A. Zhuang

Subjects
Physics, Particle physics, Annihilation, Spectrometer, Electron–positron annihilation, Hadron, General Physics and Astronomy, Sigma, Particle accelerator, law.invention, Nuclear physics, Cross section (physics), law, High Energy Physics::Experiment, Production (computer science), Nuclear Experiment, Astrophysics::Galaxy Astrophysics
Abstract

Using the upgraded Beijing Spectrometer, we have measured the total cross section for e(+)e(-) annihilation into hadronic final states at center-of-mass energies of 2.6, 3.2, 3.4, 3.55, 4.6, and 5.0 GeV. Values of R, sigma(e(+)e(-)-->hadrons)/sigma(e(+)e(-)-->m(+)m(-)), are determined.

Published
2000
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40. Charmonium Decays to Axial-Vector Plus Pseudoscalar Mesons

Author

E. C. Ma, H. L. Zhang, R. B. Li, G. P. Chen, Michael Schernau, W. Yang, J. Nie, S. W. Han, M. L. Gao, Y. Y. Shao, F. Wang, Z. P. Mao, J. Panetta, Y. C. Zhu, D. Kong, G. W. Yu, S. D. Gu, S. Q. Tang, J. He, H. S. Zhou, C. S. Gao, Jinxing Zheng, Meng Wang, S. M. Wang, Junguang Lu, W. R. Zhao, J. T. He, A. J. Lankford, Dehong Zhang, G. S. Varner, X. R. Qi, Yuehong Xie, Z. Z. Du, Wei Li, X. Q. Hu, H. L. Ding, W. X. Gu, Z. Q. Yu, W. H. Toki, J. W. Zhang, Y. B. Chen, W. G. Li, Y. F. Gu, Qiyang Zhang, Y. W. Liu, P. L. Wang, X. N. Li, Y. F. Lai, Y. H. Xie, C. M. Yang, M. He, Y. N. Guo, D. L. Shen, Q. H. Hu, T. J. Wang, Yong Ban, J. F. Qiu, B. Lowery, Y. L. Han, G. Rong, Z. G. Zhao, P. Wang, Y. H. Qu, H. Shen, M. G. Zhao, Bing Zhou, Z. P. Zheng, P. F. Lang, Y. Jin, He Kai, X. C. Meng, J. Standifird, Stephen L. Olsen, Xingguo Li, G. P. Zhou, J. Chen, S. T. Xue, Jiang Changhui, Cheng-Kui Li, X. L. Luo, D. Li, X. Y. Shen, G. F. Xu, G. L. Tong, B. W. Shen, I. Blum, Q. M. Zhu, G. Y. Hu, J. L. Hu, B. A. Zhuang, Cunfeng Wei, Xuan Zhang, S. Q. Zhang, F. A. Harris, D. H. Zhang, J. Z. Bai, Y. G. Wu, Y. Z. Huang, Y. K. Que, Xuanhong Lou, R. Malchow, H. B. Li, J. Oyang, R. G. Liu, H. S. Mao, C. S. Yu, Hao-Ze Chen, H. S. Sun, H. Z. Shi, F. C. Porter, Jiming Yang, H. W. Zhao, K. J. Zhu, Li Zhou, H. M. Hu, L. S. Zheng, Yuanbo Chen, D. Paluselli, Y. J. Sun, H. Y. Sheng, F. Lu, X. F. Song, F. Sun, L. Y. Dong, B. S. Cheng, C. X. Yu, L. Z. Wang, C. C. Zhang, J. Y. Zhang, M. H. Kelsey, N. D. Qi, Y. Yuan, Y. H. Yu, Y. S. Zhu, P. Gratton, X. M. Xia, J. H. Gu, Y. Q. Chen, Y. Y. Zhang, Yangsen Ye, C. Y. Yang, C. D. Qian, Xuan Yang, C. Z. Yuan, D. M. Xi, L. J. Pan, Jiawei Zhao, J. Yan, L. S. Wang, M. H. Ye, S. Q. Gao, Z. J. Ke, P. P. Xie, P. Q. Li, B. K. Kim, W. G. Yan, J. P. Liu, Jun-Bing Ma, J. Li, Lei Zhang, Joseph Izen, J. W. Zhao, J. G. Bian, W. Dunwoodie, T. Hu, D. G. Hitlin, B. D. Jones, S. W. Ye, H. M. Liu, M. Weaver, D. X. Zhao, B. Y. Zhang, Y. Z. Sun, Y. Y. Wang, and Xingzhu Cui

Subjects
Physics, Particle physics, Meson, Branching fraction, High Energy Physics::Lattice, High Energy Physics::Phenomenology, FOS: Physical sciences, General Physics and Astronomy, High Energy Physics - Experiment, Pseudoscalar, High Energy Physics - Experiment (hep-ex), High Energy Physics::Experiment, Pseudovector, Mathematical physics
Abstract

A sample of 3.79 million psi(2S) decays observed in the BES detector is used to study the decays of charmonium to axialvector plus pseudoscalar mesons. The branching fraction for psi(2S) to b1pi agrees with expectations. A contrasting behavior between the psi(2S) and the J/psi decays to K1K cannot be accommodated by an adjustment of the singlet-triplet axialvector mixing angle., 7 pages, 3 figures. Changes: excluded one figure, added information, systematic errors increased

Published
1999
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41. Partial wave analysis of J/ψ→γ(ηπ+π−)

Author

H. B. Li, B.S. Zou, C. C. Zhang, F. Sun, J. Nie, Y. C. Zhu, P. L. Wang, H. Shen, Meng Wang, Y. Y. Shao, Y. Jin, C. S. Gao, X. C. Meng, Jun-Bing Ma, S. T. Xue, Jinxing Zheng, Y. Yuan, Y. S. Zhu, G. Y. Hu, Cunfeng Wei, D.V. Bugg, J. C. Li, J. W. Zhang, J. G. Bian, J. T. He, P. P. Xie, G. P. Zhou, M. L. Gao, S. W. Ye, H. W. Zhao, J. F. Qiu, Y. G. Xie, G. P. Chen, Cheng-Kui Li, W. D. Li, J. G. Lu, Y. K. Que, P. Q. Li, H. M. Hu, Z. G. Zhao, Y. H. Yu, X. Q. Hu, Chun-Hua Jiang, C. Y. Yang, P. F. Lang, J. W. Zhao, G. W. Yu, Q. M. Zhu, Jiawei Zhao, S. D. Gu, D. X. Zhao, B. Y. Zhang, K. L. He, S. W. Han, B. W. Shen, E. C. Ma, Y. Y. Wang, Dehong Zhang, J. P. Liu, H. L. Zhang, T. Hu, S. Q. Gao, Z. J. Ke, H. S. Sun, X. N. Li, J. Y. Zhang, D. Li, Y. F. Gu, C. D. Qian, Xuan Yang, Y. B. Chen, H. S. Zhou, X. Y. Zhang, K. J. Zhu, H. Z. Shi, R. G. Liu, X. F. Song, W. G. Li, W. G. Yan, W. X. Gu, Y. J. Sun, H. L. Ding, L. Z. Wang, Y. F. Lai, Y. Ban, Y. Q. Chen, J. He, R. B. Li, M. He, A. V. Sarantsev, H. F. Chen, Y. X. Ye, Lei Zhang, Y. Y. Zhang, D. L. Shen, G. Rong, H. M. Liu, Y. H. Qu, X. H. Li, L. P. Zhou, F. Wang, Z. P. Mao, C. M. Yang, D. H. Zhang, C. S. Yu, D. M. Xi, J. Yan, Z. P. Zheng, X. L. Luo, M. G. Zhao, J. Z. Bai, Q. H. Hu, Z. Q. Yu, J. L. Hu, G. L. Tong, Z. Z. Du, B. A. Zhuang, Jiming Yang, X. M. Xia, T. J. Wang, Y. G. Wu, G. F. Xu, J. C. Chen, S. Q. Zhang, S. M. Wang, L. S. Zheng, H. Y. Sheng, Y. Z. Sun, C. X. Yu, N. D. Qi, X. Y. Shen, W. R. Zhao, Y. B. Liu, X. R. Qi, L. S. Wang, S. Q. Tang, M. H. Ye, H. S. Mao, L. Y. Dong, B. S. Cheng, J. H. Gu, Bing Zhou, F. Lu, Y. H. Xie, C. Z. Yuan, Qiyang Zhang, P. Wang, Y. Z. Huang, Y. N. Guo, Y. L. Han, and Xingzhu Cui

Subjects
Nuclear physics, Physics, Nuclear and High Energy Physics, Partial wave analysis, Electron–positron annihilation, Invariant mass, Atomic physics
Abstract

A partial wave analysis of BES J / ψ → γ ( ηπ + π − ) data has been performed in the mass region 1.1 to 2.0 GeV. A peak is observed due to η (1440) in the ηπ + π − invariant mass distribution; J P =0 − is preferred over 1 + . Its mass is M =1385±7 MeV and it decays into both ησ and a 0 (980) π , with BR[ a 0 (980) π , a 0 → ηπ / ησ ]=0.70±0.12( stat )±0.20( syst ). Destructive interference between the two decay modes is observed. In addition, in the higher ηπ + π − mass region, there is a definite 2 −+ signal, with M =1840±15 MeV and Γ =170±40 MeV and an additional 0 −+ signal at 1760±35 MeV. We also find a possible contribution from a 1 ++ signal decaying dominantly through a 0 (980) π ; its mass and width are fitted to be M =1505±20 MeV and Γ =130 −20 +50 MeV.

Published
1999
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42. ψ(2S)Hadronic Decays to Vector-Tensor Final States

Author

Xuan Yang, Z. Q. Yu, Q. H. Hu, Wei Li, J. H. Liu, J. W. Zhang, Y. S. Zhu, L. J. Pan, C. M. Yang, Y. B. Chen, Michael Schernau, W. Yang, W. G. Yan, F. Lu, L. Y. Ding, Q. J. Zhang, Z. P. Zheng, Lei Zhang, J. Nie, W. G. Li, J. C. Chen, G. L. Tong, B. A. Zhuang, Joseph Izen, T. J. Wang, C. G. Li, S. Feng, C. L. Wei, J. F. Qiu, Kai Yi, Y. Y. Shao, Hao-Ze Chen, Jiming Yang, H. S. Mao, L. Y. Dong, F. Wang, Z. P. Mao, D. X. Zhao, C. S. Gao, Dehong Zhang, B. Y. Zhang, B. S. Cheng, W. Dunwoodie, B. K. Kim, J. D. Huang, J. Panetta, Xuanhong Lou, R. Malchow, Y. Y. Wang, Y. C. Zhu, J. G. Bian, I. Blum, J. H. Gu, C. Z. Yuan, Lu Wang, J. T. He, C. H. Luo, Hai-Bo Li, H. M. Hu, Q. M. Zhu, Meng Wang, R. B. Li, J. M. Ma, Z. T. Yu, Xuan Zhang, Yuanbo Chen, X. C. Meng, J. He, J. Standifird, S. T. Xue, L. S. Zheng, Yi Jin, Y. W. Liu, L. S. Wang, M. H. Ye, P. F. Lang, Y. Z. Huang, Jie Zhang, B. W. Shen, Y. K. Que, S. W. Han, J. Chen, T. Hu, G. Y. Hu, M. Wang, E. C. Ma, C. D. Qian, Li Zhou, H. S. Sun, J. Oyang, J. P. Liu, A. M. Ma, H. S. Zhou, Chunmei Zhang, J. Li, D. G. Hitlin, X. Y. Shen, F. A. Harris, D. Li, H. L. Zhang, P. Gratton, X. M. Xia, Z. W. Chai, G. Rong, C. H. Jiang, Da-Hua Zhang, Y. Yuan, Y. H. Yu, M. G. Zhao, R. G. Liu, F. C. Porter, D. Paluselli, Yangsen Ye, H. W. Zhao, M. L. Gao, B. Lowery, S. W. Ye, S. Q. Tang, S. D. Gu, H. Z. Shi, S. Q. Gao, Z. J. Ke, Junqiang Zhang, P. P. Xie, H. M. Liu, M. Weaver, X. F. Song, J. W. Zhao, G. P. Chen, H. Shen, X. Q. Hu, Z. G. Zhao, W. R. Zhao, P. Q. Li, C. Y. Yang, Y. F. Gu, X. R. Qi, Y. L. Han, Y. H. Qu, Y. F. Lai, Y. Zhang, Yuehong Xie, Shun-Qi Zhang, M. He, D. L. Shen, X. Z. Cui, P. L. Wang, M. H. Kelsey, Stephen L. Olsen, L. C. Lu, W. J. Xiong, Y. Y. Zhang, W. X. Gu, C. S. Yu, W. H. Toki, Jianping Zheng, D. M. Xi, J. Yan, A. J. Lankford, G. F. Xu, F. Sun, X. N. Li, Y. N. Guo, H. L. Ding, Xingguo Li, G. P. Zhou, J. Y. Lu, D. Kong, S. M. Wang, Junguang Lu, Y. H. Xie, C. C. Xu, Y. Q. Chen, J. L. Hu, Y. G. Wu, Z. Z. Du, H. Y. Sheng, C. X. Yu, N. D. Qi, and J. Z. Bai

Subjects
Physics, Particle physics, Branching fraction, Hadron, General Physics and Astronomy, Mathematical physics
Abstract

Author(s): Bai, JZ; Bian, JG; Blum, I; Chai, ZW; Chen, GP; Chen, HF; Chen, J; Chen, JC; Chen, Y; Chen, YB; Chen, YQ; Cheng, BS; Cui, XZ; Ding, HL; Ding, LY; Dong, LY; Du, ZZ; Dunwoodie, W; Feng, S; Gao, CS; Gao, ML; Gao, SQ; Gratton, P; Gu, JH; Gu, SD; Gu, WX; Gu, YF; Guo, YN; Han, SW; Han, Y; Harris, FA; He, J; He, JT; He, M; Hitlin, DG; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Hu, XQ; Huang, JD; Huang, YZ; Izen, JM; Jiang, CH; Jin, Y; Ke, ZJ; Kelsey, MH; Kim, BK; Kong, D; Lai, YF; Lang, PF; Lankford, A; Li, CG; Li, D; Li, HB; Li, J; Li, PQ; Li, RB; Li, W; Li, WD; Li, WG; Li, XH; Li, XN; Liu, HM; Liu, J; Liu, JH; Liu, RG; Liu, Y; Lou, XC; Lowery, B; Lu, F; Lu, JG; Lu, JY; Lu, LC; Luo, CH; Ma, AM; Ma, EC; Ma, JM; Malchow, R; Mao, HS; Mao, ZP; Meng, XC; Nie, J; Olsen, SL | Abstract: The decays of the ψ(2S) into vector plus tensor meson final states have been studied for the first time using the BES detector. We determine upper limits on branching fractions for ψ(2S) decays into ωf2, ρa2, K*0K*02 + c.c., and φf'2(1525) that are, in each case, significantly smaller than the corresponding branching fractions for the J/ψ meson, scaled according to the expectations of perturbative QCD. © 1998 The American Physical Society.

Published
1998
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43. Study of theP-Wave Charmonium StateχcJinψ(2S)Decays

Author

W. R. Zhao, Y. L. Han, Xingzhu Cui, Z. T. Yu, X. R. Qi, Y. Zhang, H. Z. Shi, L. C. Lu, J. F. Qiu, J. L. Hu, X. F. Song, J. L. Zhang, B. K. Kim, F. Sun, L. Z. Wang, Y. Jin, Qiyang Zhang, M. H. Kelsey, J. Panetta, Y. C. Zhu, C. H. Luo, P. L. Wang, Meng Wang, S. D. Gu, P. Wang, X. C. Meng, J. Standifird, S. Q. Zhang, E. C. Ma, H. L. Zhang, R. B. Li, J. G. Lu, G. F. Xu, Y. X. Ye, H. W. Zhao, M. L. Gao, H. S. Mao, T. Hu, G. P. Chen, J. C. Li, L. Y. Dong, P. F. Lang, G. P. Zhou, W. G. Li, D. Li, F. Lu, Kai Yi, G. S. Varner, M. G. Zhao, W. D. Li, S. Q. Tang, B. S. Cheng, Y. Yuan, Y. H. Yu, Y. S. Zhu, Y. N. Guo, D. M. Xi, S. W. Ye, H. Shen, X. Q. Hu, M. Weaver, W. X. Gu, J. Yan, Cheng-Kui Li, Y. B. Chen, C. Y. Yang, X. Y. Zhang, D. G. Hitlin, J. H. Gu, Y. F. Gu, R. G. Liu, J. T. He, M. He, B. W. Shen, Y. F. Lai, H. F. Chen, W. H. Toki, J. G. Bian, D. L. Shen, I. Blum, W. J. Xiong, Cunfeng Wei, J. Z. Bai, J. W. Zhao, Stephen L. Olsen, Z. Q. Yu, Wei Li, F. A. Harris, Chun-Hua Jiang, S. W. Han, H. M. Liu, Y. Z. Huang, C. M. Yang, Z. Z. Du, J. Oyang, Jun-Bing Ma, L. J. Pan, J. W. Zhang, Xuan Yang, L. Y. Ding, Chang-Zheng Yuan, F. C. Porter, T. J. Wang, D. H. Zhang, C. S. Yu, H. B. Li, H. L. Ding, A. M. Ma, H. S. Zhou, D. Paluselli, A. J. Lankford, P. Gratton, D. X. Zhao, L. S. Wang, C. C. Zhang, B. Y. Zhang, M. H. Ye, X. M. Xia, Z. W. Chai, W. Dunwoodie, W. G. Yan, S. Feng, Jiming Yang, J. Y. Zhang, Y. Y. Wang, X. Y. Shen, H. Y. Sheng, Lei Zhang, J. He, C. X. Yu, S. Q. Gao, Z. J. Ke, D. Kong, N. D. Qi, Z. G. Zhao, S. M. Wang, Z. P. Zheng, Y. H. Qu, Joseph Izen, G. Rong, Y. G. Xie, L. P. Zhou, F. Wang, Y. Y. Zhang, Z. P. Mao, Y. K. Que, Q. H. Hu, P. P. Xie, G. L. Tong, B. A. Zhuang, J. Chen, H. M. Hu, J. C. Chen, Xuanhong Lou, R. Malchow, P. Q. Li, L. S. Zheng, Y. G. Wu, C. D. Qian, J. P. Liu, Y. Q. Chen, X. H. Li, J. Y. Lu, Y. H. Xie, C. C. Xu, Y. B. Liu, Q. M. Zhu, M. Z. Wang, H. S. Sun, X. N. Li, B. Lowery, J. H. Liu, Michael Schernau, W. Yang, J. Nie, Y. Y. Shao, C. S. Gao, Jinxing Zheng, J. D. Huang, S. T. Xue, G. Y. Hu, and Dehong Zhang

Subjects
Physics, Stereochemistry, Branching fraction, Quantum mechanics, General Physics and Astronomy
Abstract

Author(s): Bai, JZ; Bian, JG; Blum, I; Chai, ZW; Chen, GP; Chen, HF; Chen, J; Chen, JC; Chen, Y; Chen, YB; Chen, YQ; Cheng, BS; Cui, XZ; Ding, HL; Ding, LY; Dong, LY; Du, ZZ; Dunwoodie, W; Feng, S; Gao, CS; Gao, ML; Gao, SQ; Gratton, P; Gu, JH; Gu, SD; Gu, WX; Gu, YF; Guo, YN; Han, SW; Han, Y; Harris, FA; He, J; He, JT; He, M; Hitlin, DG; Hu, GY; Hu, HM; Hu, JL; Hu, QH; Hu, T; Hu, XQ; Huang, JD; Huang, YZ; Izen, JM; Jiang, CH; Jin, Y; Ke, ZJ; Kelsey, MH; Kim, BK; Kong, D; Lai, YF; Lang, PF; Lankford, A; Li, CG; Li, D; Li, HB; Li, J; Li, PQ; Li, RB; Li, W; Li, WD; Li, WG; Li, XH; Li, XN; Liu, HM; Liu, J; Liu, JH; Liu, RG; Liu, Y; Lou, XC; Lowery, B; Lu, F; Lu, JG; Lu, JY; Lu, LC; Luo, CH; Ma, AM; Ma, EC; Ma, JM; Malchow, R; Mao, HS; Mao, ZP; Meng, XC; Nie, J; Olsen, SL | Abstract: The processes ψ(2S) → I π+ π−, γK+ K−, and γpp¯ have been studied using a sample of 3.79 × 106 ψ(2S) decays. We determine the total width of the χc0 to be γtotχc0 = 14.3 ± 2.0 ± 3.0 MeV. We present the first measurement of the branching fraction B(χc0 → pp¯) = (15.9 ± 4.3 ± 5.3) × 10−5, where the first error is statistical and the second one is systematic. Branching fractions of χc0, 2 → π+ π− and K+ K− are also reported. © 1998 American Physical Society.

Published
1998
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44. Experimental Study ofJ/ψRadiative Decay toπ0π0

Author

J. H. Liu, R. B. Li, J. Nie, Y. Y. Shao, C. S. Gao, D. Li, Jinxing Zheng, J. D. Huang, Q. H. Hu, X. Y. Zhang, R. G. Liu, Y. Yuan, Y. H. Yu, Y. S. Zhu, H. L. Ding, H. Shen, Q. M. Zhu, S. D. Gu, M. Z. Wang, H. S. Sun, X. N. Li, Miao He, Jun-Bing Ma, D. X. Zhao, B. Y. Zhang, Y. Y. Wang, Jie Zhang, L. P. Zhou, F. Wang, Cunfeng Wei, T. J. Wang, Qiyang Zhang, J. Y. Lu, S. T. Xue, D. M. Xi, J. Yan, Z. P. Mao, S. Feng, Y. H. Xie, S. W. Ye, J. P. Liu, H. Z. Shi, X. Q. Hu, Y. F. Gu, J. F. Qiu, X. F. Song, W. X. Gu, Z. Q. Yu, J. G. Lu, G. Y. Hu, C. D. Qian, F. Sun, C. C. Xu, S. M. Wang, L. Z. Wang, Xingzhu Cui, M. L. Gao, T. Hu, P. Wang, D. L. Shen, Y. B. Liu, Z. T. Yu, G. P. Zhou, J. T. He, J. Z. Bai, Y. B. Chen, Y. X. Ye, H. W. Zhao, J. C. Chen, Y. H. Qu, Cheng-Kui Li, W. J. Xiong, X. Y. Shen, Y. F. Lai, P. P. Xie, Chun-Hua Jiang, H. F. Chen, B. W. Shen, Y. Q. Chen, Z. Z. Du, J. G. Bian, Y. C. Zhu, C. Y. Yang, Y. Jin, X. H. Li, C. H. Luo, P. L. Wang, P. Q. Li, Xuan Yang, S. Q. Tang, W. G. Li, Y. G. Xie, Y. K. Que, L. S. Zheng, Meng Wang, H. M. Hu, W. G. Yan, H. M. Liu, Lei Zhang, J. L. Hu, G. Rong, Y. G. Wu, P. F. Lang, F. Lu, J. Y. Zhang, D. H. Zhang, C. S. Yu, J. He, H. Y. Sheng, G. F. Xu, E. C. Ma, H. L. Zhang, C. X. Yu, N. D. Qi, S. W. Han, Dehong Zhang, Y. Y. Zhang, J. C. Li, A. M. Ma, H. S. Zhou, M. G. Zhao, C. Z. Yuan, H. B. Li, X. M. Xia, C. C. Zhang, Z. W. Chai, Z. G. Zhao, J. W. Zhang, Z. J. Guo, S. Q. Gao, Z. J. Ke, Jiming Yang, Y. Z. Huang, J. W. Zhao, Z. P. Zheng, G. P. Chen, W. D. Li, W. R. Zhao, Y. N. Guo, G. L. Tong, B. A. Zhuang, Y. L. Han, L. C. Lu, H. S. Mao, X. R. Qi, L. Y. Dong, Y. Zhang, B. S. Cheng, J. H. Gu, C. M. Yang, Kai Yi, Wei Li, L. S. Wang, M. H. Ye, S. Q. Zhang, and X. C. Meng

Subjects
Nuclear physics, Physics, Electron–positron annihilation, Radiative decay, General Physics and Astronomy, Atomic physics
Published
1998
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45. Evidence for the leptonic decay D→μν

Author

J. Panetta, O. Bardon, S. M. Chen, Y. C. Zhu, E. Soderstrom, Wei Li, K. K. Young, P. L. Wang, X. F. Zhou, H. Y. Sheng, L. J. Pan, C. X. Yu, Q. Liu, Y. Luo, N. D. Qi, Michael J. Fero, Q. Y. Li, C. M. Yang, G. Zioulas, S. Q. Zhang, J. He, Chun-Hua Jiang, R. B. Li, H. S. Mao, S. Z. Lin, W. R. Zhao, H. W. Zhao, J. C. Li, Y. Zhang, S. Whittaker, J. G. Lu, F. A. Harris, L. Jones, T. H. Burnett, D. Kong, Y. P. Tan, S. Q. Tang, Y. H. Zhou, X. R. Shi, Z. P. Zheng, R. J. Wilson, D. H. Zhang, C. S. Yu, B. S. Cheng, G. P. Chen, S. Jin, L. P. Zhou, F. Wang, T. Hu, C. Y. Yang, Z. Z. Du, S. J. Sun, S. M. Wang, R. Cowan, Z. P. Mao, D. Z. Xu, G. L. Tong, W. D. Li, E. Prabhakar, J. H. Gu, X. C. Meng, B. A. Zhuang, F. Li, J. Standifird, H. L. Ni, R. G. Liu, J. Schultz, Xingzhu Cui, A. J. Lankford, B. Schmid, S. H. Kang, P. F. Lang, R. K. Yamamoto, G. P. Zhou, D. Q. Huang, D. G. Hitlin, Z. A. Liu, H. Shen, M. Mandelkern, C. Z. Yuan, Y. L. Han, A. J. S. Smith, Y. Jin, Q. P. Jia, Cunfeng Wei, J. Y. Zhang, E. Torrence, A. Breakstone, L. S. Wang, M. H. Ye, R. S. Xu, C. C. Zhang, S. T. Xue, X. L. Fan, B. K. Kim, P. Gratton, Y. S. Zhu, H. L. Ding, J. Z. Bai, W. G. Yan, Y. K. Que, X. M. Xia, J. W. Zhang, Y. Y. Zhang, M. L. Gao, J. W. Zhao, E. C. Ma, T. J. Wang, Z. Q. Xu, Lei Zhang, X. Q. Hu, Z. Q. Yu, D. Paluselli, Joseph Izen, H. L. Zhang, Y. F. Gu, G. Rong, H. Z. Shi, D. M. Xi, W. J. Wisniewski, Y. B. Chen, J. Yan, D. X. Zhao, B. Y. Zhang, M. He, J. Synodinos, Y. F. Lai, H. F. Chen, D. P. Stoker, J. C. Chen, D. L. Shen, Y. Y. Wang, R. Malchow, X. F. Song, X. Y. Shen, Jun-Bing Ma, J. Quigley, J. Oyang, J. Fang, L. S. Zheng, S. Q. Gao, Z. J. Ke, S. J. Chen, L. Z. Wang, S. D. Gu, G. Y. Hu, B. Lowery, M. H. Kelsey, M. G. Zhao, W. Dunwoodie, F. Sun, Q. M. Zhu, S. W. Han, M. Z. Wang, S. Q. Luo, H. S. Sun, X. N. Li, I. Blum, X. C. Lou, A. M. Ma, H. S. Zhou, J. H. Liu, Y. Z. Huang, Michael Schernau, W. Yang, F. C. Porter, J. Nie, Y. Y. Shao, C. S. Gao, Jinxing Zheng, W. X. Gu, Y. N. Guo, S. L. Olsen, W. H. Toki, H. B. Lan, S. Z. Ye, M. Hatanaka, P. P. Xie, P. Q. Li, W. G. Li, H. M. Liu, P. Wang, Y. B. Liu, Y. Q. Chen, and X. H. Li

Subjects
Physics, Nuclear and High Energy Physics, Particle physics, Muon, Branching fraction, Electron–positron annihilation, Nuclear physics, Pseudoscalar, D meson, High Energy Physics::Experiment, Center of mass, Exponential decay, Neutrino, Nuclear Experiment
Abstract

Purely leptonic decays of the charged D meson have been studied using the reaction e + e − →D ∗+ D − at a center of mass energy of 4.03 GeV. A search was performed for D→μνμ recoiling against a D0 or D+ which had been reconstructed from its hadronic decay products. A single event candidate was found in the reaction e + e − →D ∗+ D − , where D ∗+ →π + D 0 with the D0→K−π+, and the recoiling D− decaying via D − →μ − ν μ . This yields a branching fraction value B(D→μνμ)=0.08−0.05−0.02+0.16+0.05%, and a corresponding value of the pseudoscalar decay constant fD=300−150−40+180+80 MeV.

Published
1998
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46. Decays of the J/ψ to and final states

Author

Z. Q. Yu, Xingzhu Cui, Z. T. Yu, Y. B. Chen, H. S. Mao, W. H. Zhao, Kai Yi, L. Y. Dong, B. S. Cheng, Qiyang Zhang, S. D. Gu, Y. Q. Chen, Y. G. Xie, Y. K. Que, H. M. Hu, W. X. Gu, Jun-Bing Ma, P. Wang, S. T. Xue, J. C. Chen, X. H. Li, H. Y. Sheng, Y. H. Qu, J. H. Gu, C. X. Yu, G. Y. Hu, C. D. Qian, S. Feng, T. J. Wang, X. C. Meng, N. D. Qi, L. P. Zhou, F. Wang, L. S. Zheng, Xuan Yang, J. Y. Lu, Z. P. Mao, S. M. Wang, Y. Jin, H. Z. Shi, D. Li, J. G. Lu, Y. H. Xie, X. F. Song, W. G. Yan, Wei Li, F. Lu, C. C. Xu, H. W. Zhao, P. F. Lang, G. P. Zhou, S. Q. Zhang, L. Z. Wang, Y. B. Liu, X. Y. Zhang, Dehong Zhang, S. W. Ye, R. G. Liu, M. G. Zhao, X. Y. Shen, Lei Zhang, Cheng-Kui Li, L. Y. Ding, J. Z. Bai, J. L. Hu, Y. Yuan, Y. S. Zhu, Y. Z. Huang, S. Q. Tang, C. Y. Yang, G. Rong, Y. G. Wu, Y. X. Ye, J. F. Qiu, T. Hu, Z. Z. Du, J. He, J. Y. Zhang, L. S. Wang, R. B. Li, C. M. Yang, Y. Y. Zhang, M. H. Ye, C. Z. Yuan, S. W. Han, D. X. Zhao, B. Y. Zhang, H. L. Ding, B. W. Shen, W. R. Zhao, Y. Y. Wang, J. G. Bian, A. M. Ma, H. S. Zhou, D. M. Xi, X. R. Qi, Y. Zhang, J. Yan, Z. P. Zheng, Y. N. Guo, Y. L. Han, L. C. Lu, J. L. Zhang, J. T. He, S. Q. Gao, Z. J. Ke, H. Shen, G. L. Tong, Y. H. Yu, B. A. Zhuang, J. W. Zhao, Cunfeng Wei, Chun-Hua Jiang, Q. H. Hu, J. W. Zhang, Jiming Yang, M. L. Gao, F. Sun, G. P. Chen, W. D. Li, Y. F. Lai, H. F. Chen, D. H. Zhang, C. S. Yu, H. B. Li, E. C. Ma, H. L. Zhang, C. C. Zhang, J. P. Liu, J. C. Li, P. P. Xie, P. Q. Li, W. G. Li, H. M. Liu, Z. G. Zhao, X. M. Xia, Z. W. Chai, X. Q. Hu, Y. F. Gu, M. He, D. L. Shen, W. J. Xiong, J. H. Liu, G. F. Xu, J. Nie, Y. Y. Shao, C. S. Gao, Y. C. Zhu, C. H. Luo, P. L. Wang, Jinxing Zheng, J. D. Huang, Meng Wang, Q. M. Zhu, M. Z. Wang, H. S. Sun, and X. N. Li

Subjects
Physics, Nuclear and High Energy Physics, Angular distribution, Atomic physics, Branching (polymer chemistry)
Abstract

With 7.8 million produced J / ψ events collected by the BES detector at the BEPC, decays J/ψ→Λ Λ ,Λ Λ γ and Λ Λ π 0 are analysed. The branching ratios are measured to be Br (J/ψ→Λ Λ )=(1.08±0.06±0.24)×10 −3 , Br (J/ψ→Λ Λ γ) −4 (90% C.L. ) , Br (J/ψ→Λ Λ π 0 )=(2.3±0.7±0.8)×10 −4 , respectively. The angular distribution for J/ψ→Λ Λ is of the form d N d cos θ =N 0 (1+α cos 2 θ) , from which we determine α =0.52±0.33±0.13.

Published
1998
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47. Search forψ(2S)production ine+e−annihilations at 4.03 GeV

Author

C. C. Zhang, J. G. Lu, H. Z. Shi, T. Hu, C. M. Yang, X. F. Song, Y. Jin, T. J. Wang, P. F. Lang, D. Kong, L. Z. Wang, Qiyang Zhang, Y. Q. Chen, Dehong Zhang, P. P. Xie, M. H. Kelsey, D. G. Hitlin, S. M. Wang, E. C. Ma, X. H. Li, J. Panetta, I. Blum, H. L. Zhang, J. He, Z. P. Zheng, Q. H. Hu, Y. C. Zhu, R. B. Li, P. Wang, S. W. Ye, P. Q. Li, H. W. Zhao, C. H. Luo, Y. X. Ye, X. Y. Shen, M. Weaver, G. P. Zhou, J. W. Zhao, W. G. Li, Cheng-Kui Li, P. L. Wang, M. G. Zhao, D. M. Xi, Meng Wang, Y. Z. Huang, J. Yan, H. S. Mao, J. L. Hu, S. T. Xue, F. C. Porter, D. P. Stoker, J. Oyang, L. Y. Dong, S. Q. Gao, Z. J. Ke, F. Sun, B. S. Cheng, S. W. Han, Y. G. Wu, H. M. Liu, L. P. Zhou, G. Y. Hu, F. Lu, G. L. Tong, D. Paluselli, D. X. Zhao, S. Q. Tang, B. W. Shen, B. A. Zhuang, F. Wang, B. Y. Zhang, X. C. Meng, S. Q. Zhang, A. M. Ma, Z. P. Mao, J. Standifird, J. C. Chen, Xuanhong Lou, R. Malchow, B. Lowery, J. T. He, J. C. Li, H. S. Zhou, Y. G. Xie, Y. K. Que, J. Chen, H. M. Hu, Y. Y. Wang, J. H. Gu, J. Schultz, H. L. Ding, Chun-Hua Jiang, Y. L. Han, F. A. Harris, Jiming Yang, L. S. Zheng, W. Dunwoodie, S. D. Gu, J. H. Liu, Xingzhu Cui, L. C. Lu, J. Y. Lu, Michael Schernau, W. Yang, J. F. Qiu, Stephen L. Olsen, J. Y. Zhang, Kai Yi, M. Mandelkern, L. S. Wang, J. L. Zhang, J. Nie, C. Z. Yuan, M. H. Ye, Y. H. Xie, J. P. Liu, G. P. Chen, Y. Yuan, D. H. Zhang, Z. Q. Yu, Y. H. Yu, Y. S. Zhu, C. C. Xu, M. L. Gao, Y. Y. Shao, H. Shen, C. S. Yu, W. D. Li, D. Li, C. S. Gao, Y. H. Qu, W. X. Gu, Y. B. Liu, Y. Y. Zhang, Jinxing Zheng, J. D. Huang, S. Feng, A. J. Lankford, Y. B. Chen, X. Y. Zhang, W. H. Toki, Wei Li, Cunfeng Wei, R. G. Liu, Q. M. Zhu, Y. F. Lai, L. J. Pan, H. F. Chen, W. R. Zhao, B. Schmid, J. W. Zhang, L. Y. Ding, M. Z. Wang, X. R. Qi, Y. Zhang, Y. N. Guo, H. S. Sun, X. N. Li, H. Y. Sheng, C. X. Yu, N. D. Qi, X. Q. Hu, Y. F. Gu, M. He, D. L. Shen, W. J. Xiong, P. Gratton, Z. Z. Du, X. M. Xia, Z. W. Chai, G. F. Xu, J. Z. Bai, Xuan Yang, W. G. Yan, B. K. Kim, Lei Zhang, Joseph Izen, G. Rong, Jun-Bing Ma, Z. T. Yu, C. D. Qian, C. Y. Yang, J. G. Bian, and H. B. Li

Subjects
Physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Photon, Electron, Radiation, law.invention, Nuclear physics, Positron, law, Metastability, High Energy Physics::Experiment, Production (computer science), Collider
Abstract

A search is performed for the production of the ψ(2S) in e^+e^- annihilation at a center-of-mass energy of 4.03 GeV using the BES detector operated at the Beijing Electron Positron Collider (BEPC). The kinematic features of the reconstructed ψ(2S) signal are consistent with its being produced only in association with an energetic photon resulting from initial state radiation (ISR). Limits are placed on ψ(2S) production from the decay of unknown charmonia or metastable hybrids that might be produced in e^+e^- annihilations at 4.03 GeV. Under the assumption that the observed cross section for ψ(2S) production is due entirely to ISR, the partial width Γ_(ee) of the ψ(2S) is measured to be 2.07±0.32keV.

Published
1998
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48. Direct measurement ofB(Ds+→φX+)

Author

J. Z. Bai, O. Bardon, I. Blum, A. Breakstone, T. Burnett, G. P. Chen, H. F. Chen, J. Chen, S. J. Chen, S. M. Chen, Y. Chen, Y. B. Chen, Y. Q. Chen, B. S. Cheng, R. F. Cowan, X. Z. Cui, H. L. Ding, Z. Z. Du, W. Dunwoodie, X. L. Fan, J. Fang, C. S. Gao, M. L. Gao, S. Q. Gao, P. Gratton, J. H. Gu, S. D. Gu, W. X. Gu, Y. F. Gu, Y. N. Guo, S. W. Han, Y. Han, F. A. Harris, J. He, M. He, D. G. Hitlin, G. Y. Hu, T. Hu, X. Q. Hu, D. Q. Huang, Y. Z. Huang, J. M. Izen, C. H. Jiang, S. Jin, Y. Jin, L. Jones, S. H. Kang, Z. J. Ke, M. H. Kelsey, B. K. Kim, D. Kong, Y. F. Lai, H. B. Lan, P. F. Lang, A. Lankford, F. Li, J. Li, P. Q. Li, Q. Li, R. B. Li, W. Li, W. D. Li, W. G. Li, X. H. Li, X. N. Li, S. Z. Lin, H. M. Liu, J. Liu, J. H. Liu, Q. Liu, R. G. Liu, Y. Liu, Z. A. Liu, X. C. Lou, B. Lowery, J. G. Lu, J. Y. Lu, S. Luo, Y. Luo, A. M. Ma, E. C. Ma, J. M. Ma, R. Malchow, M. Mandelkern, H. S. Mao, Z. P. Mao, X. C. Meng, H. L. Ni, J. Nie, S. L. Olsen, J. Oyang, D. Paluselli, L. J. Pan, J. Panetta, F. Porter, E. Prabhakar, N. D. Qi, Y. K. Que, G. Rong, M. Schernau, B. Schmid, J. Schultz, Y. Y. Shao, D. L. Shen, H. Shen, X. Y. Shen, H. Y. Sheng, H. Z. Shi, E. Soderstrom, X. F. Song, J. Standifird, D. Stoker, F. Sun, H. S. Sun, S. J. Sun, J. Synodinos, Y. P. Tan, S. Q. Tang, W. Toki, G. L. Tong, F. Wang, L. S. Wang, L. Z. Wang, M. Wang, P. Wang, P. L. Wang, S. M. Wang, T. J. Wang, Y. Y. Wang, M. Weaver, C. L. Wei, W. J. Wisniewski, D. M. Xi, X. M. Xia, P. P. Xie, D. Z. Xu, R. S. Xu, Z. Q. Xu, S. T. Xue, J. Yan, W. G. Yan, C. M. Yang, C. Y. Yang, H. Yang, W. Yang, M. H. Ye, S. Z. Ye, K. Young, C. S. Yu, C. X. Yu, Z. Q. Yu, C. Z. Yuan, B. Y. Zhang, C. C. Zhang, D. H. Zhang, H. L. Zhang, J. Zhang, J. W. Zhang, L. S. Zhang, S. Q. Zhang, Y. Zhang, Y. Y. Zhang, D. X. Zhao, J. W. Zhao, M. Zhao, W. R. Zhao, J. P. Zheng, L. S. Zheng, Z. P. Zheng, G. P. Zhou, H. S. Zhou, L. Zhou, X. F. Zhou, Y. H. Zhou, Q. M. Zhu, Y. C. Zhu, Y. S. Zhu, and B. A. Zhuang

Subjects
Hadronic decay, Nuclear physics, Physics, Nuclear and High Energy Physics, Pair production, Luminosity (scattering theory), Branching fraction
Abstract

The absolute inclusive branching fraction of D_s^+→φX^+ has been measured from data collected by the BES detector at a center-of-mass energy of 4.03 GeV, corresponding to an integrated luminosity of 22.3 pb^(-1). At this energy, direct pair production e^+e^-→D_s^+D_s^- has been observed. We have selected D_s candidate events by reconstructing five hadronic decay modes D_s^+→φπ^+, K^(0*)K^+, K^0K^+, f0^(π+) and K^0K^-π^+π^+ and have searched for inclusive φ’s in the recoiling D_s^-. We observed three recoiling φ’s in the 166.4 ± 31.8 D_s candidate events, which leads to the absolute branching fraction B(D_s^+→φX^+)=(17.8(-7.2 -6.3)^(+15.1+0.6)) % and B(D_s-6.3+→φπ-6.3+)=(3.6_(-1.6 -1.3)(^_3.1+0.4) %. [S0556-2821(97)02423-5]

Published
1998
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49. Measurement of the branching fraction ofDsinclusive semileptonic decayDs+→e+X

Author

O. Bardon, J. Y. Lu, Q. P. Jia, J. C. Li, Kai Yi, L. Zhang, B. W. Shen, Michael J. Fero, Y. B. Liu, J. Panetta, P. F. Lang, X. C. Meng, F. A. Harris, C. C. Zhang, S. M. Chen, Y. C. Zhu, Y. Luo, J. T. He, X. Q. Hu, J. Standifird, C. M. Yang, Jun Wang, Y. Q. Chen, X. H. Li, Y. F. Gu, M. L. Gao, S. Z. Lin, W. R. Zhao, M. He, P. L. Wang, Meng Wang, S. D. Gu, X. L. Fan, D. L. Shen, Jun-Bing Ma, H. B. Lan, Y. Zhang, W. J. Xiong, Z. P. Zheng, Dehong Zhang, J. L. Hu, Y. G. Wu, Qiyang Zhang, Y. Jin, L. Jones, Chun-Hua Jiang, Y. B. Chen, E. Soderstrom, B. Lowery, Z. Q. Yu, S. Q. Tang, J. G. Lu, Z. Q. Xu, H. Z. Shi, S. Q. Zhang, J. H. Liu, R. B. Li, Y. H. Zhou, Xiru Huang, X. F. Song, Y. F. Lai, H. L. Ni, J. W. Zhao, Michael Schernau, W. Yang, Wei Li, H. F. Chen, L. Z. Wang, G. L. Tong, G. F. Xu, S. Z. Ye, M. H. Kelsey, J. Nie, S. Jin, Xuan Yang, B. A. Zhuang, T. Hu, S. T. Xue, L. J. Pan, J. Oyang, Q. H. Hu, E. C. Ma, J. F. Qiu, G. Y. Hu, Y. Y. Shao, C. S. Gao, W. X. Gu, H. L. Zhang, W. G. Yan, Jinxing Zheng, W. H. Toki, D. M. Xi, T. H. Burnett, D. G. Hitlin, J. Yan, D. P. Stoker, H. Yang, Q. M. Zhu, P. Gratton, L. P. Zhou, Lei Zhang, F. Wang, C. Y. Yang, X. M. Xia, Z. P. Mao, F. Sun, T. J. Wang, M. Z. Wang, Z. W. Chai, Joseph Izen, G. Rong, H. S. Sun, X. N. Li, Y. S. Zhu, J. Synodinos, J. Yang, L. S. Wang, M. H. Ye, X. Y. Shen, R. S. Xu, Y. H. Qu, E. Prabhakar, J. G. Bian, A. J. Lankford, Y. K. Que, J. Chen, W. Dunwoodie, G. P. Chen, W. D. Li, D. Z. Xu, B. K. Kim, S. W. Han, H. S. Mao, A. M. Ma, H. S. Zhou, Q. Y. Li, J. He, Stephen L. Olsen, B. S. Cheng, D. H. Zhang, C. S. Yu, X. Y. Zhang, R. G. Liu, J. H. Gu, J. Schultz, B. Schmid, K. K. Young, J. P. Liu, S. Q. Gao, Z. J. Ke, W. G. Li, H. Shen, H. M. Liu, Cunfeng Wei, P. P. Xie, P. Q. Li, J. W. Zhang, D. X. Zhao, B. Y. Zhang, Y. Y. Wang, Q. Liu, R. Cowan, S. W. Ye, M. Weaver, Xingzhu Cui, Z. T. Yu, A. Breakstone, Y. N. Guo, Y. L. Han, S. Q. Luo, I. Blum, H. W. Zhao, Y. Z. Huang, F. C. Porter, D. Paluselli, D. Kong, Y. P. Tan, P. Wang, M. G. Zhao, S. M. Wang, X. R. Shi, J. C. Chen, F. Lu, Xuanhong Lou, R. Malchow, J. Fang, L. S. Zheng, G. P. Zhou, Z. Z. Du, S. H. Kang, S. J. Sun, J. Y. Zhang, M. Mandelkern, C. Z. Yuan, Y. Y. Zhang, H. L. Ding, W. J. Wisniewski, Z. A. Liu, J. Z. Bai, H. Y. Sheng, C. X. Yu, and N. D. Qi

Subjects
Hadronic decay, Combinatorics, Physics, Semileptonic decay, Nuclear and High Energy Physics, Meson, Branching fraction
Abstract

Author(s): Bai, JZ; Bardon, O; Bian, JG; Blum, I; Breakstone, A; Burnett, T; Chai, ZW; Chen, GP; Chen, HF; Chen, J; Chen, JC; Chen, SM; Chen, Y; Chen, YB; Chen, YQ; Cheng, BS; Cowan, RF; Cui, XZ; Ding, HL; Du, ZZ; Dunwoodie, W; Fan, XL; Fang, J; Fero, M; Gao, CS; Gao, ML; Gao, SQ; Gratton, P; Gu, JH; Gu, SD; Gu, WX; Gu, YF; Guo, YN; Han, SW; Han, Y; Harris, FA; He, J; He, JT; He, M; Hitlin, DG; Hu, GY; Hu, JL; Hu, QH; Hu, T; Hu, XQ; Huang, XP; Huang, YZ; Izen, JM; Jia, QP; Jiang, CH; Jin, S; Jin, Y; Jones, L; Kang, SH; Ke, ZJ; Kelsey, MH; Kim, BK; Kong, D; Lai, YF; Lan, HB; Lang, PF; Lankford, A; Li, J; Li, PQ; Li, Q; Li, RB; Li, W; Li, WD; Li, WG; Li, XH; Li, XN; Lin, SZ; Lu, F; Liu, HM; Liu, J; Liu, JH; Liu, Q; Liu, RG; Liu, Y; Liu, ZA; Lou, XC; Lowery, B; Lu, JG; Lu, JY; Luo, SQ | Abstract: The absolute inclusive semileptonic branching fraction of the [Formula presented] meson has been measured based on [Formula presented] of [Formula presented] collision data collected with the Beijing Spectrometer at [Formula presented] At this energy, the [Formula presented] are produced in pairs: [Formula presented] We reconstructed [Formula presented] [Formula presented] events in five hadronic decay modes. In the recoil system of these events, several [Formula presented] inclusive semileptonic decays were observed and the branching fraction is estimated to be [Formula presented] © 1997 The American Physical Society.

Published
1997
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50. Structure Analysis of thefJ(1710)in the Radiative DecayJ/ψ→γK+K−

Author

M. L. Gao, Y. L. Han, Y. B. Chen, Xuan Yang, L. C. Lu, Y. F. Lai, Kai Yi, F. Lu, H. F. Chen, L. S. Wang, H. B. Lan, M. H. Ye, W. G. Yan, Y. P. Tan, S. M. Wang, S. Q. Zhang, Jun-Bing Ma, Lei Zhang, S. Q. Luo, H. L. Ni, G. Rong, S. Z. Lin, W. R. Zhao, Y. Zhang, S. D. Gu, S. W. Han, B. W. Shen, Z. Z. Du, Jiming Yang, S. J. Sun, A. M. Ma, X. Q. Hu, H. S. Zhou, G. P. Zhou, S. H. Kang, Q. H. Hu, E. C. Ma, C. Z. Yuan, C. C. Zhang, Z. D. Cheng, X. Y. Zhang, R. G. Liu, H. L. Zhang, Y. F. Gu, J. F. Qiu, Q. J. Li, Wei Li, Y. Z. Huang, S. Q. Tang, J. G. Bian, Qiyang Zhang, D. L. Shen, X. C. Meng, W. J. Xiong, Y. Jin, H. W. Zhao, S. Q. Gao, Z. J. Ke, De. H. Zhang, W. X. Gu, P. Wang, L. Zhang, Z. A. Liu, J. C. Li, F. Sun, H. S. Mao, W. H. Zhao, W. Y. Ding, C. Y. Yang, Z. P. Zheng, P. F. Lang, S. M. Chen, Y. C. Zhu, H. L. Ding, B. S. Cheng, P. L. Wang, Men Wang, G. F. Xu, S. Jin, Y. N. Guo, T. J. Wang, J. H. Gu, Xiru Huang, J. Z. Bai, D. H. Zhang, G. L. Tong, C. S. Yu, Y. Luo, H. Shen, R. B. Li, Z. Q. Xu, Y. H. Qu, J. T. He, B. A. Zhuang, Y. S. Zhu, Q. Liu, R. S. Xu, J. G. Lu, Y. G. Xie, H. Y. Sheng, J. He, Y. H. Zhou, Y. K. Que, Cunfeng Wei, T. Hu, C. X. Yu, X. Y. Shen, N. D. Qi, J. W. Zhang, C. M. Yang, Chun-Hua Jiang, X. M. Xia, Z. W. Chai, Z. Q. Yu, M. G. Zhao, J. H. Liu, Xingzhu Cui, Z. T. Yu, J. Nie, Y. Y. Shao, C. S. Gao, Jinxing Zheng, J. C. Chen, Q. M. Zhu, Miao He, J. Fang, L. S. Zheng, M. Z. Wang, S. W. Ye, H. S. Sun, X. N. Li, L. P. Zhou, F. Wang, D. M. Xi, J. Yan, Z. P. Mao, J. Y. Zhang, D. X. Zhao, B. Y. Zhang, Y. Y. Zhang, Y. Y. Wang, S. Z. Ye, S. T. Xue, G. Y. Hu, H. Z. Shi, X. F. Song, L. Z. Wang, W. G. Li, H. M. Liu, J. P. Liu, P. P. Xie, P. Q. Li, X. L. Fan, J. W. Zhao, G. P. Chen, W. D. Li, Jun Wang, Y. Q. Chen, X. H. Li, J. Y. Lu, Y. B. Liu, J. L. Hu, and Y. G. Wu

Subjects
Nuclear physics, Physics, Structure analysis, Electron–positron annihilation, Radiative decay, General Physics and Astronomy
Published
1996
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