4 Papers
4 Citations
Zhang Yang is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Gravitational wave & Gravitation. The author has an hindex of 2, co-authored 4 publications.
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Papers
A test of the MOND theory and the model of dark matter
Zhang Yang,Zhao Wen,Han Jin-lin +2 more
TL;DR: In this paper, the predictions of the modified gravitational model MOND and the model of dark matter for the earth's gravitational system are examined and a general expression for the gravitational potential in the case of spherical symmetry, and the predicted angular velocity of a satellite moving in the field.
2
The Data Analysis in Gravitational Wave Detection
Wang Xiaoge,E. O. Lebigot,Du Zhi-hui,Cao Junwei,Wang Yun-yong,Zhang Fan,Cai Yong-zhi,Li Mu-zi,Zhu Zonghong,Qian Jin,Yin Cong,Wang Jian-bo,Zhao Wen,Zhang Yang,David Blair,Ju Li,Zhao Chun-nong,Wen Lin-qing +17 more
TL;DR: In this paper, the authors introduce systematically the tool software that commonly used for the data analysis of GWs, and discuss in detail the basic methods used in GW data analysis, such as the time-frequency analysis, composite analysis, pulsar timing analysis, matched filter, template, χ 2 test, and Monte-Carlo simulation, etc.
1
Gravitational Waves and Gravitational-wave Sourcestwo
Zhao Wen,Zhang Xing,Liu Xiao-jin,Zhang Yang,Wang Yun-yong,Zhang Fan,Zhao Yu-hang,Guo Yue-fan,Chen Yi-kang,Ai Shun-ke,Zhu Zonghong,Wang Xiao-ge,Wang Xiao-ge,Lebigot Eric,Du Zhi-hui,Cao Junwei,Qian Jin,Yin Cong,Wang Jian-bo,Blair David,Ju Li,Zhao Chun-nong,Wen Lin-qing +22 more
TL;DR: In this paper, the basic characters of gravitational waves in the Einstein's general relativity, their observational effects and main generation mechanisms, including the rotation of neutron stars, evolution of binary systems, and spontaneous generation in the inflation universe.
1
The Orbit Computation of Binary Black Hole OJ287—A 3.5-th Order Post-Newtonian Approximation
TL;DR: In this article, the authors carried out a detailed calculation on the orbital motion of OJ287, using the post-Newtonian (PN) approximation up to the 3.5th order within the framework of general relativity.