Browsing by Author "YuanJing Li"
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PublicationArticle First experimental constraints on WIMP couplings in the effective field theory framework from CDEX(Science in China Press, 2021) Yi Wang; Zhi Zeng; Qian Yue; LiTao Yang; KeJun Kang; YuanJing Li; Mehment Ağartioğlu; HaiPeng An; JianPing Chang; JingHan Chen; YunHua Chen; JianPing Cheng; Cheng Yi Chiang; WenHan Dai; Zhi Deng; ChangHao Fang; XinPing Geng; Hui Gong; QiuJu Guo; XuYuan Guo; HongJian He; Li He; ShengMing He; JinWei Hu; TuChen Huang; HanXiong Huang; HaiTao Jia; LiPing Jia; Xi Jiang; HauBin Li; JianMin Li; Jin Li; MingXuan Li; RenMingJie Li; Xia Li; YuLan Li; Bin Liao; FongKay Lin; ShinTed Lin; ShuKui Liu; YanDong Liu; Yu Liu; YuanYuan Liu; ZhongZhi Liu; Hao Ma; YuCai Mao; QiYuan Nie; JinHua Ning; Hui Pan; NingChun Qi; Jie Ren; XiChao Ruan; ChangSong Shang; Vivek Sharma; Ze She; Lakhwinder Singh; Monoj Kumar Singh; TianXi Sun; ChangJian Tang; WeiYou Tang; Yang Tian; GuangFu Wang; Li Wang; Qing Wang; YuChen Wang; YunXiang Wang; Zhen Wang; Henry Tsz-King Wong; ShiYong Wu; YuCheng Wu; HaoYang Xing; Yin Xu; Tao Xue; YuLu Yan; Nan Yi; ChunXu Yu; HaiJun Yu; JianFeng Yue; Ming Zeng; BingTao Zhang; Lei Zhang; FengShou Zhang; ZhenYu Zhang; KangKang Zhao; MingGang Zhao; JiFang Zhou; ZuYing Zhou; JingJun ZhuWe present weakly interacting massive particles (WIMPs) search results performed using two approaches of effective field theory from the China Dark Matter Experiment (CDEX), based on the data from both CDEX-1B and CDEX-10 stages. In the nonrelativistic effective field theory approach, both time-integrated and annual modulation analyses were used to set new limits for the coupling of WIMP-nucleon effective operators at 90% confidence level (C.L.) and improve over the current bounds in the low mχregion. In the chiral effective field theory approach, data from CDEX-10 were used to set an upper limit on WIMP-pion coupling at 90% C.L. We for the first time extended the limit to the mχ < 6 GeV/c2 region. © 2021, Science China Press and Springer-Verlag GmbH Germany, part of Springer Nature.PublicationArticle Performances of a prototype point-contact germanium detector immersed in liquid nitrogen for light dark matter search(Science in China Press, 2019) Hao Jiang; LiTao Yang; Qian Yue; KeJun Kang; JianPing Cheng; YuanJing Li; Henry Tsz-King Wong; M. Ağartioğlu; HaiPeng An; JianPing Chang; JingHan Chen; YunHua Chen; Zhi Deng; Qiang Du; Hui Gong; Li He; JinWei Hu; QingDong Hu; HanXiong Huang; LiPing Jia; HauBin Li; Hong Li; JianMin Li; Jin Li; Xia Li; XueQian Li; YuLan Li; Bin Liao; FongKay Lin; ShinTed Lin; ShuKui Liu; YanDong Liu; YuanYuan Liu; ZhongZhi Liu; Hao Ma; JingLu Ma; Hui Pan; Jie Ren; XiChao Ruan; B. Sevda; Vivek Sharma; ManBin Shen; Lakhwinder Singh; Monoj Kumar Singh; TianXi Sun; ChangJian Tang; WeiYou Tang; Yang Tian; GuangFu Wang; JiMin Wang; Li Wang; Qing Wang; Yi Wang; ShiYong Wu; YuCheng Wu; HaoYang Xing; Yin Xu; Tao Xue; SongWei Yang; Nan Yi; ChunXu Yu; HaiJun Yu; JianFeng Yue; XiongHui Zeng; Ming Zeng; Zhi Zeng; FengShou Zhang; YunHua Zhang; MingGang Zhao; JiFang Zhou; ZuYing Zhou; JingJun Zhu; ZhongHua ZhuThe CDEX-10 experiment searches for light weakly interacting massive particles, a form of dark matter, at the China Jinping Underground Laboratory, where approximately 10 kg of germanium detectors are arranged in an array and immersed in liquid nitrogen. Herein, we report on the experimental apparatus, detector characterization, and spectrum analysis of one prototype detector. Owing to the higher rise-time resolution of the CDEX-10 prototype detector as compared with CDEX-1B, we identified the origin of an observed category of extremely fast events. For data analysis of the CDEX-10 prototype detector, we introduced and applied an improved bulk/surface event discrimination method. The results of the new method were compared to those of the CDEX-1B spectrum. Both sets of results showed good consistency in the 0–12 keVee energy range, except for the 8.0 keV K-shell X-ray peak from the external copper. © 2018, Science China Press and Springer-Verlag GmbH Germany, part of Springer Nature.