高光度系统中吸积盘日冕的模型

The evolution of X‐ray binaries Pub Date : 2008-05-12 DOI:10.1063/1.46011

S. Murray, R. Klein, J. Castor, C. McKee

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摘要

我们提出了一种潜在的强大的新方法，用于模拟各向异性系统中的二维辐射传输。该方法是高效的，允许在动态模拟中包含辐射衰减。与详细的辐射传输代码进行了比较。作为第一个应用，我们在亮度高达0.6 led的系统中计算了康普顿加热日冕的自一致模型。使用较低光度模型与早期工作的结果进行比较。我们提出了一种潜在的强大的新方法，用于模拟各向异性系统中的二维辐射传输。该方法是高效的，允许在动态模拟中包含辐射衰减。与详细的辐射传输代码进行了比较。作为第一个应用，我们在亮度高达0.6 led的系统中计算了康普顿加热日冕的自一致模型。使用较低光度模型与早期工作的结果进行比较。

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Models of accretion disk coronae in high luminosity systems

We present results from a potentially powerful new method for modeling two‐dimensional radiative transfers in anisotropic systems. The method is highly efficient, allowing inclusion of radiative attenuation in dynamical simulations. Comparisons are made with a detailed radiative transfer code. As a first application, we compute self‐consistent models of Compton‐heated coronae in systems with luminosities up to 0.6 LEdd. Lower luminosity models are used to compare with the results of earlier work.We present results from a potentially powerful new method for modeling two‐dimensional radiative transfers in anisotropic systems. The method is highly efficient, allowing inclusion of radiative attenuation in dynamical simulations. Comparisons are made with a detailed radiative transfer code. As a first application, we compute self‐consistent models of Compton‐heated coronae in systems with luminosities up to 0.6 LEdd. Lower luminosity models are used to compare with the results of earlier work.

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The evolution of X‐ray binaries

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