共查询到19条相似文献,搜索用时 140 毫秒
1.
对黑洞吸积盘内区温度的径向分布特征和演化特征作了详细的讨论。结果表明:(1)盘内区的温度并非随径向坐标r单调减少,在接近盘的内边缘处有一个盘温的峰值环。在盘温的峰值环和盘的内边缘之间形成一个温度梯度很大的冷却区;(2)在盘吸积的过程中,盘内区温度峰值和冷却区的平均温度梯度均随中心黑洞的无量纲角动量α*的增加而单调增加,而盘峰值环半径和冷却区的径向宽度均随α*的增加而单调减小;(3)盘的热辐射光度随 相似文献
2.
在同时考虑薄盘吸积与BlandfordZnajek过程的条件下讨论了黑洞吸积盘的的演化,并指出黑洞的无量纲角动量a是标志黑洞吸积盘演化特征的重要参量.得到描述黑洞自转的3个特征值:(1)aI≈0.983标志在薄盘吸积与BlandfordZnajek能量提取机制的作用下,中心黑洞的无量纲角动量a演化的上限;(2)aII≈0.940对应于黑洞薄盘内边缘半径rms演化的极小值;(3)aIII≈0.824对应于活动星系核射电噪度(radioloudnes)的极大值 相似文献
3.
分别在薄盘和厚盘两种情况下,讨论吸积盘的中心黑洞在顺行积和逆行吸积中的演化特征,结果表明,黑洞的温度和熵在逆行吸积与顺行吸积中的演化特征很不相同;在顺行吸积中黑洞的温度单调减小,而在逆行吸积中黑洞的温度存在一个极大值;在吸积的全过程中,黑洞的熵始终是增加的,而且逆行吸积中黑洞熵的变化率要比顺行吸积中的黑洞熵的变化率大得多,此外还讨论了在吸积过程中,黑洞质量的相对变化与黑洞自转的相关性。 相似文献
4.
汪定雄 《中国天文和天体物理学报》1999,(2)
分别在薄盘和厚盘两种情况下,详细讨论了Blandford-Znajek过程对黑洞吸积盘内边缘半径演化的影响.结果表明,中心黑洞的无量纲角动量演化到某一临界值时;黑洞吸积盘的内边缘半径的变化率将由负交正.尽管盘的内边缘半径的极小值出现在Kerr黑洞的能层的外边界上,但内边缘半径仍不可避免地会演化到Kerr黑洞的能层中去. 相似文献
5.
本文用广义相对论讨论了黑洞吸积盘内边缘半径r(ms)的演化规律。结果表明,吸积盘的中心黑洞在由Schwarzschild型向极端Kerr型演化的过程中,黑洞的角动量变化对r(ms)的影响始终比黑洞的质量变化对r(ms)的影响大。在此过程中r(ms)始终是连续、单调减小的。本文得出r(ms)对时间变化率的取值范围,并对其物理意义作了讨论。 相似文献
6.
在吸积盘内由于吸积物质的径向运动,盘内物质间沿径向的粘滞力将会对盘的性质产生一定影响.本文计算了等温吸积盘中(考虑径向粘滞力)的不稳定性问题,对所求得的色散方程的分析表明,径向粘滞力将使吸积盘趋向稳定。本文还对径向粘滞力对盘的稳定性的影响作了物理解释,并发现径向粘滞力的引入不会引入新的稳定或不稳定模式。 相似文献
7.
分别在薄盘和厚盘两种情况下,详细讨论了Blandford-Znajek过程对黑洞吸积盘内边缘半径演化的影响。结果表明,中心黑洞的无量纲角动量演化到某一临界值时,黑洞吸积盘的内边缘半径的变化率将由负变正,尽管 内边缘半径的极小值出现在Kerr黑洞的能层的外边界上,但内边缘半径仍不可避免地会演化到Kerr黑洞的能层中去。 相似文献
8.
汪定雄 《中国天文和天体物理学报》1996,(4)
本文详细讨论了在Blandford-Znajek过程中吸积盘中心黑洞的角动量和质量的总变化率与质量吸积率和能量提取率之比的关系,在此基础上讨论了BlandfordZnajek过程对黑洞吸积盘内边缘半径r_(ms)演化的影响,并证明在此过程中中心黑洞的熵总是增大的。 相似文献
9.
在吸积盘内由于吸积物质的径向运动,盘内物质间沿径向的粘滞力将会对盘的性质产生一定影响。本计算了等温吸积盘中(考虑径向粘滞力)的不稳定性问题,对所求得的色散方程的分析表明,径向粘滞力将使吸积盘趋向稳定。本还对径向粘滞力对盘的稳定性的影响作了物理解释,并发现径向粘滞力的引入不会引入新的稳定或不稳定模式。 相似文献
10.
黑洞的吸积是天体物理学中最重要的基础理论之一。近年来该理论取得了引人瞩目的重大进展,具体表现在两个方面。其一是根据黑洞吸积必定跨声速这一特性,提出在一定条件下吸积流中会出现激波,这可称为含激波的吸积理论;其二是基于对一种局域致冷机制-贮导(advection)致冷的作用的重新认识而建立的,称为ADAF理论。在吸积盘的光学厚度很小或很大两种情况下,粘滞产生的大部分热量没有像在标准薄盘模型中那样辐射出去,而是贮存在流体中随流体的径向运动进入黑洞。与标准薄盘模型相比,贮导吸积盘具有高得多的温度和大得多的径向速度,但角动量小于开普勒角动量,吸积致能的效率要低得多。 相似文献
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12.
H. G. Paul 《Astronomische Nachrichten》1986,307(1):41-47
In the framework of thin, rigorous relativistic accretion disks the inner boundary behaviour is studied taking into cosideration the internal energy of the disk plasma. Consuming the internal energy stored in the accretion flow the disk forms a cusplike wall in the effective gravitational potential; the disk matter is raised on higher levels of the angular momentum by cooling simultaneously. This gravity induced cooling leads to a rigorous braking of the radial accretion flow. There is a steep, inner boundary with a very small gap very close at the orbit of last bound motion of test matter. Especially natural boundary conditions can be imposed in contrast to the boundary value problem in the divergent, relativistic standard models. 相似文献
13.
Orhan Dönmez 《Astrophysics and Space Science》2006,305(2):187-196
In this paper, perturbations of an accretion disk by a star orbiting around a black hole are studied. We report on a numerical experiment, which has been carried out by using a parallel-machine code originally developed by Dönmez (2004). An initially steady state accretion disk near a non-rotating (Schwarzschild) black hole interacts with a “star”, modeled as an initially circular region of increased density. Part of the disk is affected by the interaction. In some cases, a gap develops and shock wave propagates through the disk. We follow the evolution for order of one dynamical period and we show how the non-axisymetric density perturbation further evolves and moves downwards where the material of the disk and the star become eventually accreted onto the central body. When the star perturbs the steady state accretion disk, the disk around the black hole is destroyed by the effect of perturbation. The perturbed accretion disk creates a shock wave during the evolution and it loses angular momentum when the gas hits on the shock waves. Colliding gas with the shock wave is the one of the basic mechanism of emitting the X-rays in the accretion disk. The series of supernovae occurring in the inner disk could entirely destroy the disk in that region which leaves a more massive black hole behind, at the center of galaxies. 相似文献
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15.
通过几十年的观测研究, 黑洞X射线双星(X-Ray Binary, XRB)部分特征被揭示. 然而, 吸积盘结构尚不确定. 黑洞XRB功率密度谱的截断频率与准周期振荡(Quasi Periodic Oscillation, QPO)的相关性质(W-K关系)可以限制吸积盘结构. 利用慧眼-HXMT (Hard X-ray Modulation Telescope)观测到的5个黑洞XRB的数据, 对黑洞XRB的W-K关系进行了研究, 结果表明在慧眼-HXMT观测的3个探测器能段中W-K关系成立. 此外在MAXI J1535-571之中存在截断频率和吸积盘内半径的相关关系, 这和截断的吸积盘结构一致. 如果观测到的功率密度谱来自质量吸积率的扰动传播, 可以推测吸积盘内半径接近最内圆形稳定轨道, 此黑洞可能是高自旋系统. 相似文献
16.
The stability of the innermost disk region orbiting a Kerr black hole is investigated for geometrically thin accretion disks. The infalling matter transports mass and angular momentum into the Kerr hole. This affects the inner disk boundary and leads to runaway instabilities in some cases. 相似文献
17.
We consider the problem of dust grain survival in the disk winds from T Tauri and Herbig Ae stars. For our analysis, we have chosen a disk wind model in which the gas component of the wind is heated through ambipolar diffusion to a temperature of ~104 K. We show that the heating of dust grains through their collisions with gas atoms is inefficient compared to their heating by stellar radiation and, hence, the grains survive even in the hot wind component. As a result, the disk wind can be opaque to the ultraviolet and optical stellar radiation and is capable of absorbing an appreciable fraction of it. Calculations show that the fraction of the wind-absorbed radiation for T Tauri stars can be from 20 to 40% of the total stellar luminosity at an accretion rate ? a = 10?8-10?6 M ⊙yr?1. This means that the disk winds from T Tauri stars can play the same role as the puffed-up inner rim in current accretion disk models. In Herbig Ae stars, the inner layers of the disk wind (r ≤ 0.5 AU) are dust-free, since the dust in this region sublimates under the effect of stellar radiation. Therefore, the fraction of the radiation absorbed by the disk wind in this case is considerably smaller and can be comparable to the effect from the puffed-up inner rim only at an accretion rate of the order of or higher than 10?6 M ⊙yr?1. Since the disk wind is structurally inhomogeneous, its optical depth toward the observer can be variable, which should be reflected in the photometric activity of young stars. For the same reason, moving shadows from gas and dust streams with a spiral-like shape can be observed in high-angular-resolution circumstellar disk images. 相似文献
18.
The normal mode oscillations of thin accretion disks around black holes and other compact objects are analyzed and contrasted with those in stars. For black holes, the most robust modes are gravitationally trapped near the radius at which the radial epicyclic frequency is maximum. Their eigenfrequencies depend mainly on the mass and angular momentum of the black hole. The fundamental g-mode has recently been seen in numerical simulations of black hole accretion disks. For stars such as white dwarfs, the modes are trapped near the inner boundary (magnetospheric or stellar) of the accretion disk. Their eigenfrequencies are approximately multiples of the (Keplerian) angular velocity of the inner edge of the disk. The relevance of these modes to the high frequency quasi-periodic oscillations observed in the power spectra of accreting binaries will be discussed. In contrast to most stellar oscillations, most of these modes are unstable in the presence of viscosity (if the turbulent viscosity induced by the magnetorotational instability acts hydrodynamically). 相似文献