THE EFFECT OF NEUTRON STAR GRAVITATIONAL BINDING ENERGY ON GRAVITATIONAL RADIATION-DRIVEN MASS-TRANSFER BINARIES

EVELYNE ALECIAN; SHARON M. MORSINK

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THE EFFECT OF NEUTRON STAR GRAVITATIONAL BINDING ENERGY ON GRAVITATIONAL RADIATION-DRIVEN MASS-TRANSFER BINARIES

机译：中子星引力结合能对引力辐射驱动的传质二元关系的影响

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In a relativistic model of a neutron star, the star's mass is less than the mass of the individual component baryons, because the star's negative binding energy makes a contribution to the star's total energy and its mass. A consequence of this relativistic mass deficit is that a neutron star that is accreting matter increases its mass at a rate that is slower than the mass of a baryon times the rate that baryons are accreted. This difference in the rate of change of the masses has a simple relation with the star's gravitational redshift. We show that this effect has the potential to be observed in binaries where the mass transfer is driven by angular momentum losses from the gravitational radiation emitted by the binary motion, if the physics of the donor star is understood well enough.

机译：在中子星的相对论模型中，恒星的质量小于单个分量重子的质量，因为恒星的负结合能对恒星的总能量及其质量做出了贡献。这种相对论的质量赤字的结果是，正在吸收物质的中子星以比重子的质量乘以重子的吸收的速率慢的速率增加其质量。质量变化率的这种差异与恒星的引力红移有着简单的关系。我们表明，如果对供体恒星的物理过程了解得足够多，则这种效应有可能在双星中观察到，在这种双星中，传质是由双星运动发出的引力辐射产生的角动量损失驱动的。

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来源
《The Astrophysical journal》 |2004年第2pt1期|p.914-921|共8页
作者
EVELYNE ALECIAN; SHARON M. MORSINK;
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Theoretical Physics Institute, Department of Physics, University of Alberta, Edmonton, AB T6G 2J1, Canada;

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正文语种 eng
中图分类天文学;
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入库时间 2022-08-18 01:51:00

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1. The Effect of Neutron Star Gravitational Binding Energy on Gravitational Radiation-driven Mass-Transfer Binaries [J] . Evelyne Alécian, Sharon M. Morsink The Astrophysical journal . 2004,第2期

机译：中子恒重力结合能在重力辐射驱动的传质二十型中的影响
2. THE EFFECT OF NEUTRON STAR GRAVITATIONAL BINDING ENERGY ON GRAVITATIONAL RADIATION-DRIVEN MASS-TRANSFER BINARIES [J] . EVELYNE ALECIAN, SHARON M. MORSINK The Astrophysical journal . 2004,第2Pt1期

机译：中子星引力结合能对引力辐射驱动的传质二元关系的影响
3. Induced gravitational collapse in FeCO Core-Neutron star binaries and Neutron star-Neutron star binary mergers [J] . Ruffini R., Aimuratov Y., Bianco C. L., International Journal of Modern Physics, A. Particles and Fields, Gravitation, Cosmology . 2015,第28a29期

机译：FeCO核心-中子星双星和中子星-中子星双星合并引起的引力坍塌
4. Shedding Light on the EOS-Gravity Degeneracy and Constraining the Nuclear Symmetry Energy from the Gravitational Binding Energy of Neutron Stars [C] . Xiao-Tao He, F. J. Fattoyev, Bao-An Li, International Symposium on Origin of Matter and Evolution of Galaxies . 2016

机译：在EOS - 重力退化上脱落，并限制中子恒星重力结合能量的核对称能量
5. The effect of compact object spin on the search for gravitational waves from binary neutron star and neutron star-black hole mergers. [D] . Nitz, Alexander Harvey. 2015

机译：紧凑的物体自旋对寻找来自双星中子星和中子星-黑洞合并的引力波的影响。
6. Gravitational waves from neutron stars and asteroseismology [O] . Wynn C. G. Ho -1

机译：来自中子星和星震学的引力波
7. The Effect of Neutron Star Binding Energy on Gravitational-Radiation-Driven Mass-Transfer Binaries [O] . Alecian, Evelyne, Morsink, Sharon M. 2004

机译：中子星结合能对中子的影响引力 - 辐射驱动的质量传递二进制

THE EFFECT OF NEUTRON STAR GRAVITATIONAL BINDING ENERGY ON GRAVITATIONAL RADIATION-DRIVEN MASS-TRANSFER BINARIES

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