Accretion Flows in Magnetic White Dwarf Systems

机译：磁性白矮星系统中的吸积流动

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We received Type A and B funding under the NASA Astrophysics Data Program for the analysis and interpretation of hard x-ray data obtained by the Rossi X-ray Timing Explorer and other NASA sponsored missions for Intermediate Polars (IPS) and Polars. For some targets, optical data was available. We reduced and analyzed the X-ray spectra and the X-ray and optical (obtained at the Cerro Tololo Inter-American Observatory) timing data using detailed shock models (which we constructed) to place constraints on the properties of the accreting white dwarfs, the high energy emission mechanisms of white dwarfs, and the large-scale accretion flows of Polars and IPS. IPS and Polars are white dwarf mass-transfer binaries, members of the larger class of cata,clysmic variables. They differ from the bulk of the cataclysmic variables in that they contain strongly magnetic white dwarfs; the white dwarfs in Polars have B, = 7 to 230 MG and those in IPS have B, less than 10 MG. The IPS and Polars are both examples of funneled accretion flows in strong magnetic field systems. The IPS are similar to x-ray pulsars in that accretion disks form in the systems which are disrupted by the strong stellar magnetic fields of the white dwarfs near the stellar surface from where the plasma is funneled to the surface of the white dwarf. The localized hot spots formed at the footpoints of the funnels coupled with the rotation of the white dwarf leads to coherent pulsed x-ray emission. The Polars offer an example of a different accretion topology; the magnetic field of the white dwarf controls the accretion flow from near the inner Lagrangian point of the system directly to the stellar surface. Accretion disks do not form. The strong magnetic coupling generally leads to synchronous orbital/rotational motion in the Polars. The physical system in this sense resembles the Io/Jupiter system. In both IPS and Polars, pulsed emission from the infrared to x-rays is produced as the funneled flows merge onto the white dwarfs through the formation of strong radiating shock waves. A comparative study of the IPS and Polars can elucidate the primary effects of the magnetic fields on the dynamics and thermodynamics in accreting white dwarf systems.

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Imamura, James N.;
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年度 2005
页码 1-4
总页数 4
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Astrophysics; Data acquisition; Shock waves; Stellar magnetic fields; Time measurement; X ray timing explorer; Nasa programs; White dwarf stars; X ray spectra; Magnetic effects;

机译：天体物理学;数据采集;冲击波;恒星磁场;时间测量; X射线定时探测器;美国国家航空航天局计划;白矮星; X射线光谱;磁效应;

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1. Accretion flows in nonmagnetic white dwarf binaries as observed in X-rays [J] . Balman Solen Advances in space research . 2020,第5期

机译：在X射线中观察到的非磁性白矮二进制中的吸收流量
2. Magnetically gated accretion in an accreting 'non-magnetic' white dwarf [J] . Scaringi S., Maccarone T. J., DAngelo C., Nature . 2017,第7684期

机译：分泌的“非磁性”白矮星中的磁性门吸积物
3. MAGNETICALLY DRIVEN EXPLOSIONS OF RAPIDLY ROTATING WHITE DWARFS FOLLOWING ACCRETION-INDUCED COLLAPSE [J] . L. Dessart, A. Burrows, E. Livne, The Astrophysical journal . 2007,第1Pt1期

机译：积聚引起的塌陷后快速旋转的白矮星的磁驱动爆炸
4. Accretion on to Magnetic White Dwarfs [C] . Dayal Wickramasinghe Physics at the Magnetospheric Boundary Conference . 2014

机译：磁性白色矮人的吸收
5. Explosive Outcomes from Rapid Accretion of Helium onto White Dwarfs in Tight Binaries [D] . Brooks, Jared C. 2017

机译：氦气快速吸收到紧身二进制中的白矮星中的爆炸性结果
6. Accretion-induced variability links young stellar objects white dwarfs and black holes [O] . Simone Scaringi, Thomas J. Maccarone, Elmar Körding, 2015

机译：吸积引起的变异性将年轻的恒星物体白矮星和黑洞联系起来
7. Accretion flows in nonmagnetic white dwarf binaries as observed in X-rays [O] . Şölen Balman 2020

机译：在X射线中观察到的非磁性白矮二进制中的吸收流量

Accretion Flows in Magnetic White Dwarf Systems

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