Prospects for Time-Domain and Multi-Messenger Science with eXTP
Prospects for Time-Domain and Multi-Messenger Science with eXTP
In this new era of time-domain and multi-messenger astronomy, various new transients and new phenomena are constantly being discovered thanks to the rapid advances in observations, which provide the excellent opportunity to study the physics in the extreme environments. The enhanced X-ray Timing and Polarimetry mission (eXTP), planned to be launched in 2030, has several key advantages, including advanced polarimetry, high sensitivity & large effective area, and wide energy range coverage, which make it a groundbreaking project in high-energy astrophysics. In this article, we briefly introduce the potential time-domain and multi-messenger targets for eXTP, including gravitational-wave (GW) counterparts, gamma-ray bursts (GRBs), magnetars and fast radio bursts (FRBs), tidal disruption events (TDEs), supernovae, high energy neutrinos and TeV active galactic nucleus (AGNs), and so on. We discuss the advantages of future eXTP observations for detecting these sources, their detection capabilities, the abilities to distinguish theoretical models, and their applications in gravity and cosmology.
Fan Xu、Xing-Jiang Zhu、Youjun Lu、Shu-Xu Yi、Wen Zhao、Ren-Xin Xu、Xue-Feng Wu、Giulia Stratta、Simone Dall'Osso、Yan-Jun Xu、Andrea Santangelo、Silvia Zane、Shuang-Nan Zhang、Hua Feng、Huan Yang、Junjie Mao、Junqiang Ge、Lijing Shao、Mi-Xiang Lan、He Gao、Lin Lin、Ning Jiang、Qingwen Wu、Tong Liu、Yun-Wei Yu、Xiang-Yu Wang、Jin Zhang、Dafne Guetta、Jin-Jun Geng、Di Xiao、Yong-Feng Huang、Yacheng Kang、Tian-Yong Cao、Zhen Zhang、Zhenwei Lyu、Zhen Pan、Yunfeng Chen、Yong Gao、Ang Li、Yu-Cong Fu、Shuo Xiao、Wei-Yang Wang、Fayin Wang、Zhenyin Zhao、Weihua Lei、Rong-Feng Shen、Lixin Dai、Guang-Lei Wu、Liang-Duan Liu、Jin Zhang、Xilong Fan、Kangfa Cheng、Da-Bin Lin、Xiao-Hong Zhao、Jun-Jie We、Bin-Bin Zhang、Ji-Rong Mao、Yongquan Xue、Xinwen Shu、Wenjie Zhang、Wei-Li Lin、Achille Fiore、Zhuo Li、Antonio Martin-Carrillo、Joseph Fisher、Fei Xie、Ye Li、Sandro Mereghetti、Shao-Lin Xiong、Yu-Han Yang、Eleonora Troja、Zi-Gao Dai、Da-Ming We、En-Wei Liang
天文学
Fan Xu,Xing-Jiang Zhu,Youjun Lu,Shu-Xu Yi,Wen Zhao,Ren-Xin Xu,Xue-Feng Wu,Giulia Stratta,Simone Dall'Osso,Yan-Jun Xu,Andrea Santangelo,Silvia Zane,Shuang-Nan Zhang,Hua Feng,Huan Yang,Junjie Mao,Junqiang Ge,Lijing Shao,Mi-Xiang Lan,He Gao,Lin Lin,Ning Jiang,Qingwen Wu,Tong Liu,Yun-Wei Yu,Xiang-Yu Wang,Jin Zhang,Dafne Guetta,Jin-Jun Geng,Di Xiao,Yong-Feng Huang,Yacheng Kang,Tian-Yong Cao,Zhen Zhang,Zhenwei Lyu,Zhen Pan,Yunfeng Chen,Yong Gao,Ang Li,Yu-Cong Fu,Shuo Xiao,Wei-Yang Wang,Fayin Wang,Zhenyin Zhao,Weihua Lei,Rong-Feng Shen,Lixin Dai,Guang-Lei Wu,Liang-Duan Liu,Jin Zhang,Xilong Fan,Kangfa Cheng,Da-Bin Lin,Xiao-Hong Zhao,Jun-Jie We,Bin-Bin Zhang,Ji-Rong Mao,Yongquan Xue,Xinwen Shu,Wenjie Zhang,Wei-Li Lin,Achille Fiore,Zhuo Li,Antonio Martin-Carrillo,Joseph Fisher,Fei Xie,Ye Li,Sandro Mereghetti,Shao-Lin Xiong,Yu-Han Yang,Eleonora Troja,Zi-Gao Dai,Da-Ming We,En-Wei Liang.Prospects for Time-Domain and Multi-Messenger Science with eXTP[EB/OL].(2025-06-09)[2025-06-25].https://arxiv.org/abs/2506.08368.点此复制
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