Your search keyword '"He, Changda"' showing total 69 results

51. Search for Light Fermionic Dark Matter Absorption on Electrons in PandaX-4T

Author

Zhang, Dan, Abdukerim, Abdusalam, Bo, Zihao, Chen, Wei, Chen, Xun, Chen, Yunhua, Cheng, Chen, Cheng, Zhaokan, Cui, Xiangyi, Fan, Yingjie, Fang, Deqing, Fu, Changbo, Fu, Mengting, Geng, Lisheng, Giboni, Karl, Gu, Linhui, Guo, Xuyuan, Han, Ke, He, Changda, He, Jinrong, Huang, Di, Huang, Yanlin, Huang, Zhou, Hou, Ruquan, Ji, Xiangdong, Ju, Yonglin, Li, Chenxiang, Li, Jiafu, Li, Mingchuan, Li, Shu, Li, Shuaijie, Lin, Qing, Liu, Jianglai, Lu, Xiaoying, Luo, Lingyin, Luo, Yunyang, Ma, Wenbo, Ma, Yugang, Mao, Yajun, Shaheed, Nasir, Meng, Yue, Ning, Xuyang, Qi, Ningchun, Qian, Zhicheng, Ren, Xiangxiang, Shang, Changsong, Shang, Xiaofeng, Shen, Guofang, Si, Lin, Sun, Wenliang, Tan, Andi, Tao, Yi, Wang, Anqing, Wang, Meng, Wang, Qiuhong, Wang, Shaobo, Wang, Siguang, Wang, Wei, Wang, Xiuli, Wang, Zhou, Wei, Yuehuan, Wu, Mengmeng, Wu, Weihao, Xia, Jingkai, Xiao, Mengjiao, Xiao, Xiang, Xie, Pengwei, Yan, Binbin, Yan, Xiyu, Yang, Jijun, Yang, Yong, Yu, Chunxu, Yuan, Jumin, Yuan, Ying, Zeng, Xinning, Zhang, Minzhen, Zhang, Peng, Zhang, Shibo, Zhang, Shu, Zhang, Tao, Zhang, Yuanyuan, Zhao, Li, Zheng, Qibin, Zhou, Jifang, Zhou, Ning, Zhou, Xiaopeng, Zhou, Yong, Zhou, Yubo, Ge, Shao-Feng, He, Xiao-Gang, Ma, Xiao-Dong, and Sheng, Jie

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), High Energy Physics - Experiment (hep-ex), General Physics and Astronomy, FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Experiment

Abstract

We report a search on sub-MeV fermionic dark matter absorbed by electrons with an outgoing active neutrino using the 0.63 tonne year exposure collected by the PandaX-4T liquid xenon experiment. No significant signals are observed over the expected background. The data are interpreted into limits to the effective couplings between such dark matter and the electron. For axial-vector or vector interactions, our sensitivity is competitive in comparison to existing astrophysical bounds on the decay of such a dark matter candidate into photon final states. In particular, we present the first direct detection limits for a vector (axial-vector) interaction which are the strongest in the mass range from 35 to 55 (25 to 45) keV/c2 in comparison to other astrophysical and cosmological constraints.

Published

2022

52. Constraints on the axial-vector and pseudo-scalar mediated WIMP-nucleus interactions from PandaX-4T experiment

Author

Huang, Zhou, primary, Han, Chencheng, additional, Abdukerim, Abdusalam, additional, Bo, Zihao, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cheng, Zhaokan, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Ke, additional, He, Changda, additional, He, Jinrong, additional, Huang, Di, additional, Huang, Yanlin, additional, Hou, Ruquan, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Chenxiang, additional, Li, Jiafu, additional, Li, Mingchuan, additional, Li, Shu, additional, Li, Shuaijie, additional, Lin, Qing, additional, Liu, Jianglai, additional, Lu, Xiaoying, additional, Luo, Lingyin, additional, Luo, Yunyang, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Ning, Xuyang, additional, Qi, Ningchun, additional, Qian, Zhicheng, additional, Ren, Xiangxiang, additional, Shaheed, Nasir, additional, Shang, Changsong, additional, Shang, Xiaofeng, additional, Shen, Guofang, additional, Si, Lin, additional, Sun, Wenliang, additional, Tan, Andi, additional, Tao, Yi, additional, Wang, Anqing, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Shaobo, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wei, Yuehuan, additional, Wu, Mengmeng, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xiao, Xiang, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yan, Xiyu, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yuan, Zhe, additional, Zeng, Xinning, additional, Zhang, Dan, additional, Zhang, Minzhen, additional, Zhang, Peng, additional, Zhang, Shibo, additional, Zhang, Shu, additional, Zhang, Tao, additional, Zhang, Yingxin, additional, Zhang, Yuanyuan, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, Zhou, Ning, additional, Zhou, Xiaopeng, additional, Zhou, Yong, additional, and Zhou, Yubo, additional

Published

2022

53. Neutron-induced nuclear recoil background in the PandaX-4T experiment*

Author

Huang, Zhou, primary, Shen, Guofang, additional, Wang, Qiuhong, additional, Abdukerim, Abdusalam, additional, Bo, Zihao, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cheng, Yunshan, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Chencheng, additional, Han, Ke, additional, He, Changda, additional, He, Jinrong, additional, Huang, Di, additional, Huang, Yanlin, additional, Hou, Ruquan, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Chenxiang, additional, Li, Mingchuan, additional, Li, Shu, additional, Li, Shuaijie, additional, Lin, Qing, additional, Liu, Jianglai, additional, Lu, Xiaoying, additional, Luo, Lingyin, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Ning, Xuyang, additional, Qi, Ningchun, additional, Qian, Zhicheng, additional, Ren, Xiangxiang, additional, Shaheed, Nasir, additional, Shang, Changsong, additional, Si, Lin, additional, Sun, Wenliang, additional, Tan, Andi, additional, Tao, Yi, additional, Wang, Anqing, additional, Wang, Meng, additional, Wang, Shaobo, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wu, Mengmeng, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xiao, Xiang, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yan, Xiyu, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yuan, Ying, additional, Zhang, Dan, additional, Zhang, Minzhen, additional, Zhang, Peng, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, Zhou, Ning, additional, Zhou, Xiaopeng, additional, and Zhou, Yong, additional

Published

2022

54. Study of background from accidental coincidence signalsin the PandaX-II experiment*

Author

Abdukerim, Abdusalam, primary, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Ke, additional, He, Changda, additional, Huang, Di, additional, Huang, Yan, additional, Huang, Yanlin, additional, Huang, Zhou, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Shuaijie, additional, Liu, Huaxuan, additional, Liu, Jianglai, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Ni, Kaixiang, additional, Ning, Jinhua, additional, Ning, Xuyang, additional, Ren, Xiangxiang, additional, Shang, Changsong, additional, Si, Lin, additional, Shen, Guofang, additional, Tan, Andi, additional, Wang, Anqing, additional, Wang, Hongwei, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wu, Mengmeng, additional, Wu, Shiyong, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yuan, Ying, additional, Zeng, Xinning, additional, Zhang, Dan, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, Zhou, Ning, additional, and Zhou, Xiaopeng, additional

Published

2022

55. A search for two-component Majorana dark matter in a simplified model using the full exposure data of PandaX-II experiment

Author

Yuan, Ying, primary, Abdukerim, Abdusalam, additional, Bo, Zihao, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Ke, additional, He, Changda, additional, He, Jinrong, additional, Huang, Di, additional, Huang, Yanlin, additional, Huang, Zhou, additional, Hou, Ruquan, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Chenxiang, additional, Li, Mingchuan, additional, Li, Shu, additional, Li, Shuaijie, additional, Lin, Qing, additional, Liu, Jianglai, additional, Lu, Xiaoying, additional, Luo, Lingyin, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Shaheed, Nasir, additional, Ning, Xuyang, additional, Qi, Ningchun, additional, Qian, Zhicheng, additional, Ren, Xiangxiang, additional, Shang, Changsong, additional, Shen, Guofang, additional, Si, Lin, additional, Sun, Wenliang, additional, Tan, Andi, additional, Tao, Yi, additional, Wang, Anqing, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Shaobo, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wu, Mengmeng, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xiao, Xiang, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yan, Xiyu, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Zhang, Dan, additional, Zhang, Minzhen, additional, Zhang, Peng, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, Zhou, Ning, additional, Zhou, Xiaopeng, additional, and Zhou, Yong, additional

Published

2022

56. Determination of Double Beta Decay Half-Life of 136 Xe with the PandaX-4T Natural Xenon Detector

Author

Si, Lin, primary, Cheng, Zhaokan, additional, Abdukerim, Abdusalam, additional, Bo, Zihao, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cheng, Yunshan, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Ke, additional, He, Changda, additional, He, Jinrong, additional, Huang, Di, additional, Huang, Yanlin, additional, Huang, Zhou, additional, Hou, Ruquan, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Chenxiang, additional, Li, Jiafu, additional, Li, Mingchuan, additional, Li, Shu, additional, Li, Shuaijie, additional, Lin, Qing, additional, Liu, Jianglai, additional, Lu, Xiaoying, additional, Luo, Lingyin, additional, Luo, Yunyang, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Shaheed, Nasir, additional, Shang, Xiaofeng, additional, Ning, Xuyang, additional, Qi, Ningchun, additional, Qian, Zhicheng, additional, Ren, Xiangxiang, additional, Shang, Changsong, additional, Shen, Guofang, additional, Sun, Wenliang, additional, Tan, Andi, additional, Tao, Yi, additional, Wang, Anqing, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Shaobo, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wei, Yuehuan, additional, Wu, Mengmeng, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xiao, Xiang, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yan, Xiyu, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yuan, Ying, additional, Yuan, Zhe, additional, Zhang, Dan, additional, Zhang, Minzhen, additional, Zhang, Peng, additional, Zhang, Shibo, additional, Zhang, Shu, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, Zhou, Ning, additional, Zhou, Xiaopeng, additional, and Zhou, Yong, additional

Published

2022

57. Erratum: A Search for Solar Axions and Anomalous Neutrino Magnetic Moment with the Complete PandaX-II Data [CHIN. PHYS. LETT. 38 (2021) 011301]

Author

Zhou, Xiaopeng, primary, Zeng, Xinning, additional, Ning, Xuyang, additional, Abdukerim, Abdusalam, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Ke, additional, He, Changda, additional, Huang, Di, additional, Huang, Yan, additional, Huang, Yanlin, additional, Huang, Zhou, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Shuaijie, additional, Liu, Huaxuan, additional, Liu, Jianglai, additional, Lu, Xiaoying, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Ni, Kaixiang, additional, Ning, Jinhua, additional, Ren, Xiangxiang, additional, Shang, Changsong, additional, Shen, Guofang, additional, Si, Lin, additional, Tan, Andi, additional, Wang, Anqing, additional, Wang, Hongwei, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wu, Mengmeng, additional, Wu, Shiyong, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yuan, Ying, additional, Zhang, Dan, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, and Zhou, Ning, additional

Published

2021

58. Light yield and field dependence measurement in PandaX-II dual-phase xenon detector

Author

Huang, Zhou, Abdukerim, Abdusalam, Bo, Zihao, Chen, Wei, Chen, Xun, Chen, Yunhua, Cheng, Chen, Cheng, Yunshan, Cui, Xiangyi, Fan, Yingjie, Fang, Deqing, Fu, Changbo, Fu, Mengting, Geng, Lisheng, Giboni, Karl, Gu, Linhui, Guo, Xuyuan, Han, Ke, He, Changda, He, Jinrong, Huang, Di, Huang, Yanlin, Hou, Ruquan, Ji, Xiangdong, Ju, Yonglin, Li, Chenxiang, Li, Mingchuan, Li, Shu, Li, Shuaijie, Lin, Qing, Liu, Jianglai, Lu, Xiaoying, Luo, Lingyin, Ma, Wenbo, Ma, Yugang, Mao, Yajun, Meng, Yue, Shaheed, Nasir, Ning, Xuyang, Qi, Ningchun, Qian, Zhicheng, Ren, Xiangxiang, Shang, Changsong, Shen, Guofang, Si, Lin, Sun, Wenliang, Tan, Andi, Tao, Yi, Wang, Anqing, Wang, Meng, Wang, Qiuhong, Wang, Shaobo, Wang, Siguang, Wang, Wei, Wang, Xiuli, Wang, Zhou, Wu, Mengmeng, Wu, Weihao, Xia, Jingkai, Xiao, Mengjiao, Xiao, Xiang, Xie, Pengwei, Yan, Binbin, Yan, Xiyu, Yang, Jijun, Yang, Yong, Yu, Chunxu, Yuan, Jumin, Yuan, Ying, Zhang, Dan, Zhang, Minzhen, Zhang, Peng, Zhang, Tao, Zhao, Li, Zheng, Qibin, Zhou, Jifang, Zhou, Ning, Zhou, Xiaopeng, and Zhou, Yong

Subjects

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

Abstract

The dual-phase xenon time projection chamber (TPC) is one of the most sensitive detector technology for dark matter direct search, where the energy deposition of incoming particle can be converted into photons and electrons through xenon excitation and ionization. The detector response to signal energy deposition varies significantly with the electric field in liquid xenon. We study the detector's light yield and its dependence on the electric field in the PandaX-II dual-phase detector containing 580 kg liquid xenon in the sensitive volume. From our measurements, the light yield at electric fields from 0 V/cm to 317 V/cm is obtained for energy depositions up to 236 keV.

Published

2022

59. A Search for Solar Axions and Anomalous Neutrino Magnetic Moment with the Complete PandaX-II Data*

Author

Zhou, Xiaopeng, primary, Zeng, Xinning, additional, Ning, Xuyang, additional, Abdukerim, Abdusalam, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cheng, Chen, additional, Cui, Xiangyi, additional, Fan, Yingjie, additional, Fang, Deqing, additional, Fu, Changbo, additional, Fu, Mengting, additional, Geng, Lisheng, additional, Giboni, Karl, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Han, Ke, additional, He, Changda, additional, Huang, Di, additional, Huang, Yan, additional, Huang, Yanlin, additional, Huang, Zhou, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Shuaijie, additional, Liu, Huaxuan, additional, Liu, Jianglai, additional, Lu, Xiaoying, additional, Ma, Wenbo, additional, Ma, Yugang, additional, Mao, Yajun, additional, Meng, Yue, additional, Ni, Kaixiang, additional, Ning, Jinhua, additional, Ren, Xiangxiang, additional, Shang, Changsong, additional, Shen, Guofang, additional, Si, Lin, additional, Tan, Andi, additional, Wang, Anqing, additional, Wang, Hongwei, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Siguang, additional, Wang, Wei, additional, Wang, Xiuli, additional, Wang, Zhou, additional, Wu, Mengmeng, additional, Wu, Shiyong, additional, Wu, Weihao, additional, Xia, Jingkai, additional, Xiao, Mengjiao, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yuan, Ying, additional, Zhang, Dan, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, and Zhou, Ning, additional

Published

2021

60. Searching for neutrino-less double beta decay of 136Xe with PandaX-II liquid xenon detector Supported by grants from the Ministry of Science and Technology of China (2016YFA0400301, 2016YFA0400302), a Double Top-class grant from Shanghai Jiao Tong University, grants from National Science Foundation of China (11435008, 11505112, 11525522, 11775142, 11755001), grants from the Office of Science and Technology, Shanghai Municipal Government (11DZ2260700, 16DZ2260200, 18JC1410200), and the support from the Key Laboratory for Particle Physics, Astrophysics and Cosmology, Ministry of Education. This work is supported in part by the Chinese Academy of Sciences Center for Excellence in Particle Physics (CCEPP) and Hongwen Foundation in Hong Kong

Author

Ni, Kaixiang, Lai, Yihui, Abdukerim, Abdusalam, Chen, Wei, Chen, Xun, Chen, Yunhua, Cui, Xiangyi, Fan, Yingjie, Fang, Deqing, Fu, Changbo, Geng, Lisheng, Giboni, Karl, Giuliani, Franco, Gu, Linhui, Guo, Xuyuan, Han, Ke, He, Changda, Huang, Di, Huang, Yan, Huang, Yanlin, Huang, Zhou, Ji, Peng, Ji, Xiangdong, Ju, Yonglin, Liang, Kun, Liu, Huaxuan, Liu, Jianglai, Ma, Wenbo, Ma, Yugang, Mao, Yajun, Meng, Yue, Namwongsa, Parinya, Ning, Jinhua, Ning, Xuyang, Ren, Xiangxiang, Shang, Changsong, Si, Lin, Tan, Andi, Wang, Anqing, Wang, Hongwei, Wang, Meng, Wang, Qiuhong, Wang, Siguang, Wang, Xiuli, Wang, Zhou, Wu, Mengmeng, Wu, Shiyong, Xia, Jingkai, Xiao, Mengjiao, Xie, Pengwei, Yan, Binbin, Yang, Jijun, Yang, Yong, Yu, Chunxu, Yuan, Jumin, Zhang, Dan, Zhang, Hongguang, Zhang, Tao, Zhao, Li, Zheng, Qibin, Zhou, Jifang, Zhou, Ning, and Zhou, Xiaopeng

Abstract

We report the Neutrino-less Double Beta Decay (NLDBD) search results from PandaX-II dual-phase liquid xenon time projection chamber. The total live time used in this analysis is 403.1 days from June 2016 to August 2018. With NLDBD-optimized event selection criteria, we obtain a fiducial mass of 219 kg of natural xenon. The accumulated xenon exposure is 242 kg·yr, or equivalently 22.2 kg·yr of 136Xe exposure. At the region around 136Xe decay Q-value of 2458 keV, the energy resolution of PandaX-II is 4.2%. We find no evidence of NLDBD in PandaX-II and establish a lower limit for decay half-life of 2.1 yr at the 90% confidence level, which corresponds to an effective Majorana neutrino mass eV. This is the first NLDBD result reported from a dual-phase xenon experiment.

Published

2019

61. Characterization of phosphorus accumulation and release using diffusive gradients in thin films (DGT) - linking the watershed to Taihu Lake, China

Author

Wu Fengchang, Fu Guo, Yu Tao, Dai Dan, Han Xuejiao, and He Changda

Subjects

geography, Environmental Engineering, Watershed, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Sediment, 010501 environmental sciences, 01 natural sciences, Pollution, Diffusive gradients in thin films, Algal bloom, Sink (geography), Environmental chemistry, Soil water, Environmental Chemistry, Environmental science, Total phosphorus, Eutrophication, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

Taihu Lake is well known internationally due to its algae bloom, and phosphorus fertilization and accumulation in the watershed soil played an important role in the lake eutrophication. To explore the linkage between soil and sediment legacy P, the soils from four representative land uses in the upstream watershed and sediments from typical lake areas were sampled and analyzed for P species. Meanwhile, the DGT technology was used to characterize the labile P in the soil and sediment and its release dynamics. The results indicated that Taihu Lake was the major total phosphorus sink (TP = 481.7 ± 97 mg/kg) and wheat land the major reactive phosphorus stock (RP = 37.3 ± 9 mg/kg) in the watershed. The DGT-P dynamic with the deployment time (t) presented a downward exponential curve (f(t) = a × t–b, b > 0) and the regression parameters implied the initial P stock (a) and release rate (b) of labile P. Although the result of the extract based method was statistically correlated to the DGT measured P (p

Published

2019

62. PandaX-II constraints on spin-dependent WIMP-nucleon effective interactions

Author

Xia, Jingkai, primary, Abdukerim, Abdusalam, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, Yunhua, additional, Cui, Xiangyi, additional, Fang, Deqing, additional, Fu, Changbo, additional, Giboni, Karl, additional, Giuliani, Franco, additional, Gu, Linhui, additional, Guo, Xuyuan, additional, Guo, Zhifan, additional, Han, Ke, additional, He, Changda, additional, He, Shengming, additional, Huang, Di, additional, Huang, Xingtao, additional, Huang, Zhou, additional, Ji, Peng, additional, Ji, Xiangdong, additional, Ju, Yonglin, additional, Li, Shaoli, additional, Lin, Heng, additional, Liu, Huaxuan, additional, Liu, Jianglai, additional, Ma, Yugang, additional, Mao, Yajun, additional, Ni, Kaixiang, additional, Ning, Jinhua, additional, Ren, Xiangxiang, additional, Shi, Fang, additional, Tan, Andi, additional, Wang, Anqing, additional, Wang, Cheng, additional, Wang, Hongwei, additional, Wang, Meng, additional, Wang, Qiuhong, additional, Wang, Siguang, additional, Wang, Xiuli, additional, Wang, Xuming, additional, Wang, Zhou, additional, Wu, Mengmeng, additional, Wu, Shiyong, additional, Xiao, Mengjiao, additional, Xie, Pengwei, additional, Yan, Binbin, additional, Yang, Jijun, additional, Yang, Yong, additional, Yu, Chunxu, additional, Yuan, Jumin, additional, Yue, Jianfeng, additional, Zhang, Dan, additional, Zhang, Hongguang, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, Qibin, additional, Zhou, Jifang, additional, Zhou, Ning, additional, Zhou, Xiaopeng, additional, and Haxton, Wick C., additional

Published

2019

63. Determination of responses of liquid xenon to low energy electron and nuclear recoils using a PandaX-II detector.

Author

Yan, Binbin, Abdukerim, Abdusalam, Chen, Wei, Chen, Xun, Chen, Yunhua, Cheng, Chen, Cui, Xiangyi, Fan, Yingjie, Fang, Deqing, Fu, Changbo, Fu, Mengting, Geng, Lisheng, Giboni, Karl, Gu, Linhui, Guo, Xuyuan, Han, Ke, He, Changda, Huang, Di, Huang, Peiyao, and Huang, Yan

Published

2021

64. An improved evaluation of the neutron background in the PandaX-II experiment.

Author

Wang, QiuHong, Abdukerim, Abdusalam, Chen, Wei, Chen, Xun, Chen, YunHua, Cui, XiangYi, Fan, YingJie, Fang, DeQing, Fu, ChangBo, Geng, LiSheng, Giboni, Karl, Giuliani, Franco, Gu, LinHui, Guo, XuYuan, Han, Ke, He, ChangDa, Huang, Di, Huang, Yan, Huang, YanLin, and Huang, Zhou

Published

2020

65. Dark matter direct search sensitivity of the PandaX-4T experiment

Author

Zhang, HongGuang, primary, Abdukerim, Abdusalam, additional, Chen, Wei, additional, Chen, Xun, additional, Chen, YunHua, additional, Cui, XiangYi, additional, Dong, BinBin, additional, Fang, DeQing, additional, Fu, ChangBo, additional, Giboni, Karl, additional, Giuliani, Franco, additional, Gu, LinHui, additional, Guo, XuYuan, additional, Guo, ZhiFan, additional, Han, Ke, additional, He, ChangDa, additional, He, ShengMing, additional, Huang, Di, additional, Huang, XingTao, additional, Huang, Zhou, additional, Ji, Peng, additional, Ji, XiangDong, additional, Ju, YongLin, additional, Li, ShaoLi, additional, Li, Yao, additional, Lin, Heng, additional, Liu, HuaXuan, additional, Liu, JiangLai, additional, Ma, YuGang, additional, Mao, YaJun, additional, Ni, KaiXiang, additional, Ning, JinHua, additional, Ren, XiangXiang, additional, Shi, Fang, additional, Tan, AnDi, additional, Wang, AnQing, additional, Wang, Cheng, additional, Wang, HongWei, additional, Wang, Meng, additional, Wang, QiuHong, additional, Wang, SiGuang, additional, Wang, XiuLi, additional, Wang, XuMing, additional, Wang, Zhou, additional, Wu, MengMeng, additional, Wu, ShiYong, additional, Xia, JingKai, additional, Xiao, MengJiao, additional, Xie, PengWei, additional, Yan, BinBin, additional, Yang, JiJun, additional, Yang, Yong, additional, Yu, ChunXu, additional, Yuan, JuMin, additional, Yue, JianFeng, additional, Zhang, Dan, additional, Zhang, Tao, additional, Zhao, Li, additional, Zheng, QiBin, additional, Zhou, JiFang, additional, Zhou, Ning, additional, and Zhou, XiaoPeng, additional

Published

2018

66. Dark matter direct search sensitivity of the PandaX-4T experiment

Author

Zhang, HongGuang, Abdukerim, Abdusalam, Chen, Wei, Chen, Xun, Chen, YunHua, Cui, XiangYi, Dong, BinBin, Fang, DeQing, Fu, ChangBo, Giboni, Karl, Giuliani, Franco, Gu, LinHui, Guo, XuYuan, Guo, ZhiFan, Han, Ke, He, ChangDa, He, ShengMing, Huang, Di, Huang, XingTao, Huang, Zhou, Ji, Peng, Ji, XiangDong, Ju, YongLin, Li, ShaoLi, Li, Yao, Lin, Heng, Liu, HuaXuan, Liu, JiangLai, Ma, YuGang, Mao, YaJun, Ni, KaiXiang, Ning, JinHua, Ren, XiangXiang, Shi, Fang, Tan, AnDi, Wang, AnQing, Wang, Cheng, Wang, HongWei, Wang, Meng, Wang, QiuHong, Wang, SiGuang, Wang, XiuLi, Wang, XuMing, Wang, Zhou, Wu, MengMeng, Wu, ShiYong, Xia, JingKai, Xiao, MengJiao, Xie, PengWei, Yan, BinBin, Yang, JiJun, Yang, Yong, Yu, ChunXu, Yuan, JuMin, Yue, JianFeng, Zhang, Dan, Zhang, Tao, Zhao, Li, Zheng, QiBin, Zhou, JiFang, Zhou, Ning, and Zhou, XiaoPeng

Abstract

The PandaX-4T experiment, a 4-ton scale dark matter direct detection experiment, is being planned at the China Jinping Un- derground Laboratory. In this paper we present a simulation study of the expected background in this experiment. In a 2.8-ton fiducial mass and the signal region between 1–10 keV electron equivalent energy, the total electron recoil background is found to be 4:9 × 10−5kg−1d−1keV−1. The nuclear recoil background in the same region is 2:8 × 10−7kg−1d−1keV−1. With an exposure of 5.6 ton-years, the sensitivity of PandaX-4T could reach a minimum spin-independent dark matter-nucleon cross section of 6 × 10−48cm2at a dark matter mass of 40 GeV/c2.

Published

2019

67. Search for light dark matter with ionization signals in the PandaX-4T Experiment

Author

Li, Shuaijie, Wu, Mengmeng, Abdukerim, Abdusalam, Bo, Zihao, Chen, Wei, Chen, Xun, Chen, Yunhua, Cheng, Chen, Cheng, Zhaokan, Cui, Xiangyi, Fan, Yingjie, Fang, Deqing, Fu, Changbo, Fu, Mengting, Li-Sheng Geng, Giboni, Karl, Gu, Linhui, Guo, Xuyuan, Han, Chencheng, Han, Ke, He, Changda, He, Jinrong, Huang, Di, Huang, Yanlin, Huang, Zhou, Hou, Ruquan, Ji, Xiangdong, Ju, Yonglin, Li, Chenxiang, Li, Jiafu, Li, Mingchuan, Lin, Qing, Liu, Jianglai, Lu, Xiaoying, Luo, Lingyin, Luo, Yunyang, Ma, Wenbo, Ma, Yugang, Mao, Yajun, Meng, Yue, Ning, Xuyang, Qi, Ningchun, Qian, Zhicheng, Ren, Xiangxiang, Shaheed, Nasir, Shang, Changsong, Shang, Xiaofeng, Shen, Guofang, Si, Lin, Sun, Wenliang, Tan, Andi, Tao, Yi, Wang, Anqing, Wang, Meng, Wang, Qiuhong, Wang, Shaobo, Wang, Siguang, Wang, Wei, Wang, Xiuli, Wang, Zhou, Wei, Yuehuan, Wu, Weihao, Xia, Jingkai, Xiao, Mengjiao, Xiao, Xiang, Xie, Pengwei, Yan, Binbin, Yan, Xiyu, Yang, Jijun, Yang, Yong, Yao, Yukun, You, Zhengyun, Yu, Chunxu, Yuan, Jumin, Yuan, Ying, Yuan, Zhe, Zeng, Xinning, Zhang, Dan, Zhang, Minzhen, Zhang, Peng, Zhang, Shibo, Zhang, Shu, Zhang, Tao, Zhang, Yang, Zhang, Yingxin, Zhang, Yuanyuan, Zhao, Li, Zheng, Qibin, Zhou, Jifang, Zhou, Ning, Zhou, Xiaopeng, Zhou, Yong, Zhou, Yubo, and Collaboration, Pandax

Abstract

We report the search results of light dark matter through its interactions with shell electrons and nuclei, using the commissioning data from the PandaX-4T liquid xenon detector. Low energy events are selected to have an ionization-only signal between 60 to 200 photoelectrons, corresponding to a mean nuclear recoil energy from 0.77 to 2.54 keV and electronic recoil energy from 0.07 to 0.23 keV. With an effective exposure of 0.55 tonne·year, we set the most stringent limits within a mass range from 40 MeV/c2 to 10 GeV/c2 for pointlike dark matter-electron interaction, 100 MeV/c2 to 10 GeV/c2 for dark matter-electron interaction via a light mediator, and 3.2 to 4 GeV/c2 for dark matter-nucleon spin-independent interaction. For DM interaction with electrons, our limits are closing in on the parameter space predicted by the freeze-in and freeze-out mechanisms in the early Universe.

68. First Indication of Solar ^{8}B Neutrinos through Coherent Elastic Neutrino-Nucleus Scattering in PandaX-4T.

Author

Bo Z, Chen W, Chen X, Chen Y, Cheng Z, Cui X, Fan Y, Fang D, Gao Z, Geng L, Giboni K, Guo X, Guo X, Guo Z, Han C, Han K, He C, He J, Huang D, Huang H, Huang J, Hou R, Hou Y, Ji X, Ji X, Ju Y, Li C, Li J, Li M, Li S, Li T, Li Z, Lin Q, Liu J, Lu C, Lu X, Luo L, Luo Y, Ma W, Ma Y, Mao Y, Meng Y, Ning X, Pang B, Qi N, Qian Z, Ren X, Shan D, Shang X, Shao X, Shen G, Shen M, Sun W, Tao Y, Wang A, Wang G, Wang H, Wang J, Wang L, Wang M, Wang Q, Wang S, Wang S, Wang W, Wang X, Wang X, Wang Z, Wei Y, Wu W, Wu Y, Xiao M, Xiao X, Xiong K, Xu Y, Yao S, Yan B, Yan X, Yang Y, Ye P, Yu C, Yuan Y, Yuan Z, Yun Y, Zeng X, Zhang M, Zhang P, Zhang S, Zhang S, Zhang T, Zhang W, Zhang Y, Zhang Y, Zhang Y, Zhao L, Zhou J, Zhou J, Zhou J, Zhou N, Zhou X, Zhou Y, and Zhou Z

Abstract

The PandaX-4T liquid xenon detector at the China Jinping Underground Laboratory is used to measure the solar ^{8}B neutrino flux by detecting neutrinos through coherent scattering with xenon nuclei. Data samples requiring the coincidence of scintillation and ionization signals (paired), as well as unpaired ionization-only signals (US2), are selected with energy threshold of approximately 1.1 keV (0.33 keV) nuclear recoil energy. Combining the commissioning run and the first science run of PandaX-4T, a total exposure of 1.20 and 1.04  tonne·year are collected for the paired and US2, respectively. After unblinding, 3 and 332 events are observed with an expectation of 2.8±0.5 and 251±32 background events, for the paired and US2 data, respectively. A combined analysis yields a best-fit ^{8}B neutrino signal of 3.5 (75) events from the paired (US2) data sample, with ∼37% uncertainty, and the background-only hypothesis is disfavored at 2.64σ significance. This gives a solar ^{8}B neutrino flux of (8.4±3.1)×10^{6}  cm^{-2} s^{-1}, consistent with the standard solar model prediction. It is also the first indication of solar ^{8}B neutrino "fog" in a dark matter direct detection experiment.

Published

2024

69. Search for Light Dark Matter with Ionization Signals in the PandaX-4T Experiment.

Author

Li S, Wu M, Abdukerim A, Bo Z, Chen W, Chen X, Chen Y, Cheng C, Cheng Z, Cui X, Fan Y, Fang D, Fu C, Fu M, Geng L, Giboni K, Gu L, Guo X, Han C, Han K, He C, He J, Huang D, Huang Y, Huang Z, Hou R, Ji X, Ju Y, Li C, Li J, Li M, Li S, Lin Q, Liu J, Lu X, Luo L, Luo Y, Ma W, Ma Y, Mao Y, Meng Y, Ning X, Qi N, Qian Z, Ren X, Shaheed N, Shang C, Shang X, Shen G, Si L, Sun W, Tan A, Tao Y, Wang A, Wang M, Wang Q, Wang S, Wang S, Wang W, Wang X, Wang Z, Wei Y, Wu W, Xia J, Xiao M, Xiao X, Xie P, Yan B, Yan X, Yang J, Yang Y, Yao Y, You Z, Yu C, Yuan J, Yuan Y, Yuan Z, Zeng X, Zhang D, Zhang M, Zhang P, Zhang S, Zhang S, Zhang T, Zhang Y, Zhang Y, Zhang Y, Zhao L, Zheng Q, Zhou J, Zhou N, Zhou X, Zhou Y, and Zhou Y

Subjects

Cell Nucleus, Electrons

Abstract

We report the search results of light dark matter through its interactions with shell electrons and nuclei, using the commissioning data from the PandaX-4T liquid xenon detector. Low energy events are selected to have an ionization-only signal between 60 to 200 photoelectrons, corresponding to a mean nuclear recoil energy from 0.77 to 2.54 keV and electronic recoil energy from 0.07 to 0.23 keV. With an effective exposure of 0.55  tonne·year, we set the most stringent limits within a mass range from 40  MeV/c^{2} to 10  GeV/c^{2} for pointlike dark matter-electron interaction, 100  MeV/c^{2} to 10  GeV/c^{2} for dark matter-electron interaction via a light mediator, and 3.2 to 4  GeV/c^{2} for dark matter-nucleon spin-independent interaction. For DM interaction with electrons, our limits are closing in on the parameter space predicted by the freeze-in and freeze-out mechanisms in the early Universe.

Published

2023