Gravitational Waves from the Merger of Binary Neutron Stars in a Fully General Relativistic Simulation

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概要

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• We performed 3D numerical simulations of the merger of equal-mass binary neutron stars in full general relativity using a new large-scale supercomputer. We take the typical grid size as (505, 505, 253) for (x, y, z) and the maximum grid size as (633, 633, 317). These grid numbers enable us to put the outer boundaries of the computational domain near the local wave zone and hence to calculate gravitational waveforms of good accuracy (within 〜 10% error) for the first time. To model neutron stars, we adopt a Γ-law equation of state in the form P = (Γ - 1)ρε, where P, ρ, ε and Γ are the pressure, rest mass density, specific internal energy and adiabatic constant. It is found that gravitational waves in the merger stage have characteristic features that reflect the formed objects. In the case that a massive, transient neutron star is formed, its quasi-periodic oscillations are excited for a long duration, and this property is reflected clearly by the quasi-periodic nature of waveforms and the energy luminosity. In the case of black hole formation, the waveform and energy luminosity are likely damped after a short merger stage. However, a quasi-periodic oscillation can still be seen for a certain duration, because an oscillating transient massive object is formed during the merger. This duration depends strongly on the initial compactness of neutron stars and is reflected in the Fourier spectrum of gravitational waves. To confirm our results and to calibrate the accuracy of gravitational waveforms, we carried out a wide variety of test simulations, changing the resolution and size of the computational domain.

• 理論物理学刊行会の論文
• 2002-02-25

著者

• Sakka Makiko

  Graduate School Of Bioresources Mie Univ.

• Shibata M

  Univ. Tokyo Tokyo Jpn

• Shibata Masaru

  Graduate School Of Arts And Sciences University Of Tokyo

• Uryu K

  Department Of Physics University Of Wisconsin-milwaukee

• URYU Koji

  Department of Physics, University of Wisconsin-Milwaukee

• SHIBATA Masaru

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

• SHIBATA Masaru

  Graduate School of Arts and Sciences, University of Tokyo

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