We present time-dependent numerical hydrodynamic models of line-driven accretion disk winds in cataclysmic variable systems and calculate wind mass-loss rates and terminal velocities. The models are 2.5-dimensional, include an energy balance condition with radiative heating and cooling processes, and includes local ionization equilibrium introducing time dependence and spatial dependence on the line radiation force parameters. The radiation field is assumed to originate in an optically thick accretion disk. Wind ion populations are calculated under the assumption that local ionization equilibrium is determined by photoionization and radiative recombination, similar to a photoionized nebula. We find a steady wind flowing from the accretion disk. Radiative heating tends to maintain the temperature in the higher density wind regions near the disk surface, rather than cooling adiabatically. For a disk luminosity L (sub disk) = solar luminosity, white dwarf mass M(sub wd) = 0.6 solar mass, and white dwarf radii R(sub wd) = 0.01 solar radius, we obtain a wind mass-loss rate of M(sub wind) = 4 x 10(exp -12) solar mass yr(exp -1) and a terminal velocity of approximately 3000 km per second. These results confirm the general velocity and density structures found in our earlier constant ionization equilibrium adiabatic CV wind models. Further we establish here 2.5D numerical models that can be extended to QSO/AGN winds where the local ionization equilibrium will play a crucial role in the overall dynamics.
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机译:我们提出了在线性变速系统中线性驱动的吸积盘风的时变数值流体力学模型,并计算了风的质量损失率和终端速度。该模型为2.5维模型,包括具有辐射加热和冷却过程的能量平衡条件,并且包括局部电离平衡,引入了对线辐射力参数的时间依赖性和空间依赖性。假定辐射场起源于光学上较厚的吸积盘。在假设局部电离平衡是通过光电离和辐射重组确定的假设下计算风离子总数的,类似于光电离星云。我们从吸积盘中发现稳定的风。辐射加热倾向于在磁盘表面附近的较高密度的风区域中保持温度,而不是绝热冷却。对于圆盘的光度L(子盘)=太阳的光度,白矮星质量M(sub wd)= 0.6太阳质量,白矮星半径R(sub wd)= 0.01太阳半径,我们得到的风量损失率为M (副风)= 4 x 10(exp -12)太阳质量yr(exp -1),终极速度约为3000 km / s。这些结果证实了在我们早期的恒定电离平衡绝热CV风模型中发现的一般速度和密度结构。此外,我们在这里建立了2.5D数值模型,该模型可以扩展到QSO / AGN风,其中局部电离平衡将在整体动力学中发挥关键作用。
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