Pulsar and Magnetar Navigation with Fermi/GBM and GECAM

Authors :: Xi-Hong Luo
Shuo Xiao
Shi-Jie Zheng
Ming-Yu Ge
You-Li Tuo
Shao-Lin Xiong
Shuang-Nan Zhang
Fang-Jun Lu
Yue Huang
Cheng Yang
Qi-Jun Zhi
Li-Ming Song
Wen-Xi Peng
Xiang-Yang Wen
Xin-Qiao Li
Zheng-Hua An
Jin Wang
Ping Wang
Ce Cai
Cheng-Kui Li
Xiao-Bo Li
Fan Zhang
Ai-Jun Dong
Wei Xie
Jian-Chao Feng
Qing-Bo Ma
Hua Wang De
Lun-Hua Shang
Xin Xu
Meng-Xuan Zhang
Zi-Ping Dong
Shi-Jun Dang
Publication Year :: 2023
Abstract: The determination of the absolute and relative position of a spacecraft is critical for its operation, observations, data analysis, scientific studies, as well as deep space exploration in general. A spacecraft that can determine its own absolute position autonomously may perform more than that must rely on transmission solutions. In this work, we report an absolute navigation accuracy of $\sim$ 20 km using 16-day Crab pulsar data observed with $Fermi$ Gamma ray Burst Monitor (GBM). In addition, we propose a new method with the inverse process of the triangulation for joint navigation using repeated bursts like that from the magnetar SGR J1935+2154 observed by the Gravitational wave high-energy Electromagnetic Counterpart All-sky Monitor (GECAM) and GBM.<br />accepted for publication in ApJS