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RESEARCH PRODUCT
Observations of Forbush Decreases of cosmic ray electrons and positrons with the Dark Matter Particle Explorer
D. MoWei Liang LiYan Fang WangCong ZhaoTianxiao MaDonghong ChenJin WuJin WuA. De BenedittisA. De BenedittisWangli ChenL. G. WangDong Ya GuoX. X. LiX. X. LiR. R. FanZ.-q. ShenW. X. PengMaria IonicaJie KongE. CasilliE. CasilliXin WuM. StolpovskiyY. F. WangQ. YuanQ. YuanCheng-rui ZhuEh XuPeng-xiong MaYu Xing CuiYu Xing CuiP. AzzarelloJ. J. ZangJ. J. ZangCihang LuoCihang LuoXun Feng ZhaoZhi Hui XuZhi Hui XuH Jun YaoGiacinto DonvitoMin GaoS. WangA. SurdoQ. AnZ. Y. SunZi Zong XuZ. Q. XiaI. De MitriXiulian PanXiulian PanX. J. BiJ. Z. WangY. Z. GongSheng Xia ZhangA. KotenkoZ. X. DongK. GongE. CatanzaniWen Hao LiWen Hao LiZhoubin ZhangP. BernardiniP. BernardiniZu-cheng ChenZu-cheng ChenChengrui ZhouGuang Shun HuangMn MazziottaH. SuC. PerrinaShuang Xue HanWenhan JiangPeidong YangX. Y. PengKun FangT. S. CuiShu Xin WangShu Xin WangR. QiaoZ. XuD. J. WuLi-bo WuD. DrozYugang ZhangM. Y. CuiYu-sa WangCaiCaiY. M. HuY. ZhangC. LiuF Carla Tiziana BarbatoMeng SuChang Qing FengYang ZhangJinglai DuanJ. N. RaoD. M. WeiD. M. WeiKai-kai DuanMaksym DeliyergiyevJin ChangJin ChangD. KyratzisF. AlemannoW. ZhangM. M. SalinasX. L. WangG. MarsellaG. MarsellaGuan Wen YuanGuan Wen YuanHao Ting DaiYuqing FanYuqing FanHao Ran SunJ. J. WeiH. LiuAndrii TykhonovG. F. XueX LuoXian Qiang LiF. GarganoY. Q. ZhangJinyuo SongM. M. MaJ. LiuS. B. LiuYa Qing YangShangwei LiYao Ming LiangL. FengJun-jun GuoJun-jun GuoL. SilveriYujuan LiuA. ParentiX. Y. MaNiu XiaoyangA. RuinaShumei WuY. F. WeiY. J. ZhangY. J. ZhangY. H. YuXiaoyuan HuangXiaoyuan HuangF. De PalmaF. De PalmaZhenyu ZhangY. Y. HuangM. Di SantoP. FuscoP. FuscoYang HaiboShuyao LiQi DingQi DingChuan YueF. LoparcoF. LoparcoJ. L. ChenH. T. XuX. J. TengTie-kuang DongZ ShangguanW. H. ShenZ. T. ShenFang FangHong Yun ZhaoYu-xuan ZhuD. D'ursosubject
Dark Matter cosmic raysAstrophysics::High Energy Astrophysical PhenomenaDark matterCoronal holeFOS: Physical sciencesCosmic rayAstrophysicsdisturbancesCoronal mass ejectionForbush decreaseNeutronplastic scintillator detectorPhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)Neutron monitordriftSettore FIS/01 - Fisica SperimentaleAstronomy and AstrophysicsdependenceForbush decrease cosmic rayscalibrationsolarCharged particlemodulationSpace and Planetary SciencetransportPhysics::Space PhysicsintensityAstrophysics - High Energy Astrophysical Phenomenaenergydescription
The Forbush Decrease (FD) represents the rapid decrease of the intensities of charged particles accompanied with the coronal mass ejections (CMEs) or high-speed streams from coronal holes. It has been mainly explored with ground-based neutron monitors network which indirectly measure the integrated intensities of all species of cosmic rays by counting secondary neutrons produced from interaction between atmosphere atoms and cosmic rays. The space-based experiments can resolve the species of particles but the energy ranges are limited by the relative small acceptances except for the most abundant particles like protons and helium. Therefore, the FD of cosmic ray electrons and positrons have just been investigated by the PAMELA experiment in the low energy range ($<5$ GeV) with limited statistics. In this paper, we study the FD event occurred in September, 2017, with the electron and positron data recorded by the Dark Matter Particle Explorer. The evolution of the FDs from 2 GeV to 20 GeV with a time resolution of 6 hours are given. We observe two solar energetic particle events in the time profile of the intensity of cosmic rays, the earlier and weak one has not been shown in the neutron monitor data. Furthermore, both the amplitude and recovery time of fluxes of electrons and positrons show clear energy-dependence, which is important in probing the disturbances of the interplanetary environment by the coronal mass ejections.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-01-01 |