共查询到19条相似文献,搜索用时 109 毫秒
1.
黑洞吸积的双模式特征 总被引:1,自引:0,他引:1
黑洞吸积必定是跨声速的。对于静态、绝热吸积流,比能量E、比角动量L和质量吸积率M都是空间的常量。跨声速解的非奇异条件,F(E,L,M)=0,使独立参数减为只有两个。对于一对给定的E和L的符合条件E_c>E>E_(Barr)的值(这里E_c是一临界值,E_(Barr)是引力和离心力的联合势垒),上述非奇异条件给出两个不同的吸积率值,对应着两个不同的吸积流声速点位置。然而,物理上合理的整体解却是唯一的,它总是使两个吸积率值中之较小者得到实现。 对于一个不转动的黑洞,吸积以两种模式之一进行。一是类球吸积或称Bondi吸积,角动量的影响和相对论效应均微不足道;另一是盘吸积,这两个因素起决定性作用。两种模式之间的转换是基于声速点位置的间断性跳跃,而这种跳跃是由吸积流参数(例如角动量)的连续变化所引发。Bondi吸积可称为高态而盘吸积为低态,因为前者总对应着较高的吸积率。 随时间变化的吸积流很可能在这两种模式之间来回振荡,呈现出周期性或准周期性或无规则行为。这可以用来解释天鹅座X-1和若干活动星系核的光变现象,从而为黑洞的存在提供有力的观测依据。 相似文献
2.
在考虑径向对流和不同光学厚度的基础上,我们采用一般的辐射冷假设,在统一的框架内考察了吸积盘的整体结构,对α模型,我们发现在不同盘区在不同的整体结构,在吸积率较低时,存在三种类型解,光学厚的局部辐射冷解,光学薄的局部致冷解,光学薄的对流致冷解,这些解在盘内较大范围内都存在且互不交叉,但在吸积率较高和粘滞系数较大时,两种局部致冷解会相互交叉,而对流为主的解在所有盘区都稳定存在,另一方面,在吸积率较高和 相似文献
3.
在考虑径向对流和不同光学厚度的基础上,我们采用一般的辐射致冷假设;在统一的框架内考察了吸积盘的整体结构.对α模型,我们发现在不同的盘区存在不同的整体结构.在吸积率较低时,存在三种类型解:光学厚的局部辐射致冷解;光学薄的局部致冷解;光学薄的对流致冷解.这些解在盘内较大范围内都存在且互不交叉.但在吸积率较高和粘滞系数较大时,两种局部致冷解会相互交叉,而对流为主的解在所有盘区都稳定存在.另一方面,在吸积率较高和粘滞系数较小时,两种光学薄解会相互交叉,而光学厚和局部致冷为主的解在所有盘区都存在. 相似文献
4.
本文在中子星磁层与吸积盘之间引入了一个速度、密度、压强和磁场都连续变化的有限厚度的剪切层,以代替Anzer理论中的切向间断面,用磁流体力学方法讨论了中子星磁层与吸积盘交界处等离子体可压缩情况下平面波扰动的K-H不稳定性。结果表明,K-H不稳定性依然存在,径向波矢扰动成为不稳定的主要模式。文中特别讨论了剪切层厚度取值对中子星自转的影响,表明适当调节剪切层厚度就可解释X射线脉冲星周期的变化。将此模型应用到脉冲X射线源Her X-1上,得到较好的结果。 相似文献
5.
本文主要研究有热冕存在的吸积盘的特征。首先,我们采用最新的不透明度表和态方程表对经典薄盘的结构进行了探讨。然后考虑吸积盘上下方存在的热冕,分析了冕中的物理过程并研究了冕的结构。在此基础上,我们计算了有冕盘的结构并与无冕盘比较,讨论了盘冕共存系统中物质的蒸发。采用内区径流(亦译为平流)ADAF主导吸积与外区有冕盘吸积方案,研究了黑洞双星系统中光谱态之间转换的作用,提出了黑洞双星系统中光谱态转换的新机制,主要研究成果如下:1、不透明度是吸积盘不稳定性的重要因素。不透明度表和相应的态方程表的改进对吸积盘结构的影响不大,相对于粘滞系数和混合程的不确定性而言是可以忽略的。2、系统的冕结构研究表明,冕的存在对盘的结构有重要影响。吸积物质从冷盘蒸发到热冕中会使内盘物质耗空,在内区只有冕存在。这样的结构将对吸积盘的辐射产生重要作用。3、数值计算了冕的演化,发现物质蒸发使吸积盘理论能自然地诠释如下观测特征:矮新星爆发中出现的紫外边延滞、X-射线后爆发,以及爆发温度。然后,我们提出了新的关于WZ Sge型矮新星和X-射线新星在沉寂阶段的演化模型。在此基础上,我们数值模拟了WZ Sge的长周期演化。4、提出了冕盘的蒸发是吸积从外区薄盘向内区ADAF转化的原因。利用蒸发模型计算了X-射线瞬变源的转换半径,发现理论值与观测值基本一致。5、用有冕盘蒸发模型探讨了X-射线双星中(如Cyg X-1,LMC X-1,LMC X-3)光谱态、从硬到软的变化,发现吸积率的变化导致了ADAF和薄盘之间转换半径的变化,从而使光谱态发生了变化。 相似文献
6.
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
7.
Blandford—Znajek过程对黑洞吸积盘演化的影响 总被引:1,自引:0,他引:1
本详细讨论了在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到率之比β=M+/M-关系,在此基础上讨论了BlandfordZnajek过程对黑洞吸积盘内边缘半径rms演化的影响,并在此过程中中心黑的熵总是增大的。 相似文献
8.
本文利用含平流的热吸积流的自相似解,在电子对为非热产生的情况下,求得了含平流的热单温吸积流在小吸积率时的径向结构.证实了含平流热吸积流所具有的显著特征和基本性质,并得到一些新的结果:含平流的热吸积流存在一个临界半径r,含平流热吸积流的辐射冷却率与中心天体的质量成平方反比关系,含平流热吸积的电子对密度高于SLE模型吸积盘. 相似文献
9.
本文在Thorne工作的基础上讨论了吸积盘中黑洞的有关参量的演化,以及由Schwarzschild黑洞吸积盘向Kerr黑洞吸积盘演化过程中对吸积盘辐射通量的影响,最后针对几个典型的辐射过程,分别讨论了黑洞吸积盘在牛顿框架中的温度分布方程与广义相对论的温度分布方程的热不稳定性,并给出此类问题的热不稳定性的判据。 相似文献
10.
11.
We briefly review recent developments in black hole accretion disk theory, emphasizing the vital role played by magnetohydrodynamic
(MHD) stresses in transporting angular momentum. The apparent universality of accretion-related outflow phenomena is a strong
indicator that large-scale MHD torques facilitate vertical transport of angular momentum. This leads to an enhanced overall
rate of angular momentum transport and allows accretion of matter to proceed at an interesting rate. Furthermore, we argue
that when vertical transport is important, the radial structure of the accretion disk is modified at small radii and this
affects the disk emission spectrum. We present a simple model demonstrating how energetic, magnetically-driven outflows modify
the emergent disk emission spectrum with respect to that predicted by standard accretion disk theory. A comparison of the
predicted spectra against observations of quasar spectral energy distributions suggests that mass accretion rates inferred
using the standard disk model may be severely underestimated. 相似文献
12.
An analysis is presented of the hydrodynamic aspects of the growth of protostellar disks from the accretion (or collapse) of a rotating gas cloud. The size, mass, and radiative properties of protostellar disks are determined by the distribution of mass and angular momentum in the clouds from which they are formed, as well as from the dissipative processes within the disks themselves. The angular momentum of the infalling cloud is redistributed by the action of turbulent viscosity on a shear layer near the surface of the disk (downstream of the accretion shock) and on the radial shear across cylindrical surfaces parallel to the rotation axis. The fraction of gas that is fed into a central core (protostar) during accretion depends on the ratio of the rate of viscous diffusion of angular momentum to the accretion rate; rapid viscous diffusion (or a low accretion rate) promotes a large core-to-disk mass ratio. The continuum radiation spectrum of a highly viscous disk is similar to that of a steady-state accretion disk without mass addition. It is possible to construct models of the primitive solar nebula as an accretion disk, formed by the collapse of a slowly rotating protostellar cloud, and containing the minimum mass required to account for the planets. Other models with more massive disks are also possible. 相似文献
13.
Z. Y. Wang P. J. Chen D. X. Wang L. Y. Zhang 《Journal of Astrophysics and Astronomy》2013,34(1):33-40
In this paper, we use a Langevin type equation with a damping term and stochastic force to describe the stochastic oscillations on the vertical direction of the accretion disk around a black hole, and calculate the luminosity and power spectral density (PSD) for an oscillating disk. Then we discuss the stochastic resonance (SR) phenomenon in PSD curves for different parameter values of viscosity coefficient, accretion rate, mass of black hole and outer radius of the disk. The results show that our simulated PSD curves of luminosity for disk oscillation have the same profile as the observed PSD of black hole X-ray binaries (BHXBs) in the lowhard state, and the SR of accretion disk oscillation may be an alternative interpretation of the persistent low-frequency quasi-periodic oscillations (LFQPOs). 相似文献
14.
We carry out 2.5D MHD simulations to study the interaction between a dipolar magnetic field of a T Tauri Star, a circumstellar accretion disk, and the halo above the disk. The initial disk is the result of 1D radiation hydrodynamics computations with opacities appropriate for low temperatures. The gas is assumed resistive, and inside the disk accretion is driven by a Shakura–Sunyaev-type eddy viscosity. Magnetocentrifugal forces due to the rotational shear between the star and the Keplerian disk cause the magnetic field to be stretched outwards and part of the field lines are opened. For a solar-mass central star and an accretion rate of 10?8 solar masses per year a field strength of 100 G (measured on the surface of the star) launches a substantial outflow from the inner parts of the disk. For a field strength of 1 kG the inner parts of disk is disrupted. The truncation of the disk turns out to be temporary, but the magnetic field structure remains changed after the disk is rebuilt. 相似文献
15.
《天文和天体物理学研究(英文版)》2016,(4)
The peaks in the spectra of the accretion disks surrounding massive black holes in quasars are in the far-UV or soft X-ray band, which are usually not observed. However, in the disk corona model, soft photons from the disk are Comptonized to high energy in the hot corona, and the hard X-ray spectra(luminosity and spectral shape) contain information on the incident spectra from the disk. The values of black hole spin parameter a*are inferred from the spectral fitting, which are spread over a large range, ~-0.94 to 0.998. We find that the inclination angles and mass accretion rates are well determined by the spectral fitting, but the results are sensitive to the accuracy of black hole mass estimates. No tight constraints on the black hole spins are achieved, if the uncertainties in black hole mass measurements are a factor of four,which are typical for the single-epoch reverberation mapping method. Recently, the accuracy of black hole mass measurement has been significantly improved to 0.2- 0.4 dex with the velocity resolved reverberation mapping method. The black hole spin can be well constrained if the mass measurement accuracy is50%. In the accretion disk corona scenario, a fraction of power dissipated in the disk is transported into the corona, and therefore the accretion disk is thinner than a bare disk for the same mass accretion rate,because the radiation pressure in the disk is reduced. We find that the thin disk approximation, H/R0.1,is still valid if 0.3 m 0.5, provided half of the dissipated power is radiated in the corona above the disk. 相似文献
16.
Nonstationary hydrodynamic models of a viscous accretion disk around a central compact object were constructed. Two different numerical methods (TVD and SPH) are used to study the dynamics of dissipatively unstable acoustic perturbations at the nonlinear stage in terms of the standard α-disk model. The standard disk accretion in the Shakura-Sunyaev model is unstable against acoustic waves for various parameters of the system. If the α parameter, which specifies the level of turbulent viscosity, exceeds α?0.03, then a complex nonstationary system of small-scale weak shock waves is formed. The growth rate of the perturbations is higher in the central disk region. For α?0.2, the relative shock amplitude can exceed 50% of the equilibrium disk parameters. The reflection of waves from the disk boundaries and their nonlinear interaction are important factors that can produce unsteady accretion. The luminosity of such a disk undergoes quasi-periodic oscillations at a level of several percent (?5%) of the equilibrium level. 相似文献
17.
Min-Zhi Kong Xue-Bing Wu Jin-Lin Han Yu-Feng Mao National Astronomical Observatories Chinese Academy of Sciences Beijing Department of Astronomy Peking University Beijing 《中国天文和天体物理学报》2004,4(6):518-526
Using the archived optical spectra of NGC 5548 between 1989 and 2001, we derived the optical spectral index by fitting the spectra in wavelength windows unaffected by strong emission lines. We found that the index is anti-correlated with the continuum luminosity at 5100 A with a correlation coefficient of -0.8. Based on the standard thin accretion disk model, we investigated whether the correlation is related to the variations of the dimensionless accretion rate m (mass accretion rate in Eddington unit), or the inner radius of the accretion disk Rin, or both. The correlation can be modeled well using a co-variable mode of Rin/Rs = 12.5m-0.8 (Rs is Schwarzschild radius). As luminosity increases, m increases from 0.05 to 0.16 and at the same time Rin decreases from 133.9.RS to 55.5.RS, consistent with the prediction for a transition radius within which an ADAF structure exists. We concluded that the change of both inner accretion radius and the dimensionless accretion rate are key factors for the variation 相似文献
18.
We simulate the impact of a dipolar stellar magnetic field rooted in a classical T Tauri star on the accretion disk and the halo above using a 2.5D finite difference code. The gas is assumed resistive, and inside the disk accretion is driven by a Shakura-Sunyaev-type eddy viscosity. The rotational shear between the star and the Keplerian disk causes the magnetic field to be wound up and stretched outwards, away from the star. Part of the field lines open and an outflow is launched. Direct disk disruption by the Lorentz force only occurs for sufficient field strength. For our model system with a solar-mass central star, an accretion rate of 10-7M⊙/a, and a viscosity parameter αSS=0.01, a field strength of 1 kG, measured at the poles on the surface of the star, was found insufficient for disk disruption. 相似文献
19.
We present a model that relates the width of the broad emission lines of active galactic nuclei (AGNs) to the Keplerian velocity of an accretion disk at a critical distance from the central black hole. This critical distance falls in a region bounded on the inward side by the transition radius between the radiation pressure- and the gas pressure-dominated region of the accretion disk and on the outward side by the maximum radius below which a stabilizing, radially accreting and vertically outflowing corona exists. We show that in the framework of this picture, the observed range of Hbeta FWHMs from broad-line to narrow-line type 1 AGNs is well reproduced as a function of the accretion rate. This interval of velocities is the only permitted range and goes from approximately 20,000 km s-1 for sub-Eddington accretion rates to approximately 1000 km s-1 for Eddington accretion rates. 相似文献