Numerical Study on the Hydrodynamic Instability of Binary Stars in the First Post Newtonian Approximation of General Relativity : Astrophysics and Relativity

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概要

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• We present numerical results on the hydrodynamic stability of coalescing binary stars in the first post Newtonian (1PN) approximation of general relativity. We pay particular attention to the hydrodynamic instability of corotating binary stars in equilibrium states assuming a stiff polytropic equation of state with the adiabatic constant Γ = 3. In previous 1PN numerical studies on corotating binary stars in equilibrium states, it was found that along the sequence of binary stars as a function of the orbital separation, they have the energy and/or angular momentum minima where the secular instability sets in, and that with increase of the 1PN correction, the orbital separation at this minimum decreases while the angular velocity there increases. In this paper, to determine the location of the innermost stable circular orbit (ISCO), we perform numerical simulations and find where the hydrodynamic instability along the corotating sequences of the binary sets in. From these numerical results, we found that the dynamical stability limit seems to exist near the energy and/or angular momentum minima not only in the Newtonian, but also in the 1PN cases. This means that the 1PN effect of general relativity increases the angular frequency of gravitational waves at the ISCO.

• 理論物理学刊行会の論文
• 1997-11-25

著者

• Nakamura Takashi

  Yukawa Institute for Theoretical Physics, Kyoto University

• Sakka Makiko

  Graduate School Of Bioresources Mie Univ.

• Shibata M

  Univ. Tokyo Tokyo Jpn

• OOHARA Ken-ichi

  Department of Physics, Kyoto University

• Oohara K

  Department Of Physics Niigata University

• Oohara Ken-ichi

  National Laboratory For High Energy Physics

• Oohara Ken-ichi

  Department Of Oral Anatomy Kanagawa Dental College

• OOHARA Kenichi

  National Laboratory for High Energy Physics

• Shibata Masaru

  Department Of Agricultural Chemistry Kyoto University:(present)asahi Kasei Chemicals Industry Co. Lt

• Oohara Kenichi

  Department Of Physics Niigara University

• Shibata Masaru

  Department Of Earth And Space Science Graduate Schoof Of Science Osaka University

• SHIBATA Masaru

  Department of Earth and Space Science Faculty of Science, Osaka University

• SHIBATA Masaru

  Graduate School of Arts and Sciences, University of Tokyo

• OOHARA Kenichi

  Department of Physics,Niigara University

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