共查询到20条相似文献,搜索用时 140 毫秒
1.
本文利用我们所参与的1993年的国际联测光学资料,对NGC4151的BLR进行了后续Reverberation Mapping分析,其中包括a)Monte-Carlo数值模拟检验谱线光变对连续谱光变响应的最可靠的延时时标,b)用正则线性化反演方法解出BLR的转移函数。我们分析并具体解释了对NGC4151的BLR尺度的最新测量结果用1988年的测量结果存在极其显著差别的原因。 相似文献
2.
本系统地研究了简并双星的形成,提出了简并双星形成的三种形成途径;稳定的洛希瓣物质交流-公共包层途径,公共包层-公共包层途径,核暴露-公共包层途径,并对简并双星的形成进行了Monte-Carlo模拟,探讨了模型参量(潮汐星风增强系数,稳定的洛希瓣物质交流过程中物质转移效率,双星初始质量比分布,公共包层抛射效率)对结果的影响,本模型成功地解释了简并双星的形成,解释了简并双星的质量分布,质量比分布和周 相似文献
3.
在行星状星云形成过程中双星起着非常重要的作用,本文采用Monte-Carlo方法,研究了双星演化过程在行星状星云形成中的作用,研究了不同的双星质量比分布、恒星初始-终止质量关系,星族参数、公共包层的理论模型等对结果的影响。 相似文献
4.
通过把从光球辐射出来的连续能谱能量分成大量的光子包,然后用MongeCarlo方法跟踪这些光子包从光球向超新星包层外运动的过程,这一方法能很好的解决超新星的光谱拟合中的谱线覆盖问题,由于同时编制了用于构造超新星包层中的密度结构和丰度分布的程序,以及大量的用比较观测和理论拟合的绘图和支持程序,使我们的MonteCarlo光谱拟合软件包能够很好的运用于超新星的早期光谱研究。本文给出了SN1993J在1 相似文献
5.
《天文研究与技术》2016,(4)
通过观测和模拟星际空间的辐射转移过程,探索天体的物理化学性质和分布演化过程,是天体物理学研究的一种重要手段。星际尘埃在星际辐射的产生和加工方面都扮演了重要角色。星际尘埃的分布为三维不均匀分布,需采用尘埃三维辐射转移模型以更真实地模拟尘埃的辐射转移过程。在研究分析尘埃三维辐射转移模型有关文献的基础上,重点介绍了用蒙特卡洛方法模拟尘埃三维辐射转移的基本图景和对模拟结果的一般处理步骤。详细梳理了适用于不同物理环境的6种模拟尘埃三维辐射转移的开源代码,比较分析了它们的模拟对象、辐射源类型、尘埃分布和组成等要素,总结评析了各个代码的特点和优势,便于需要利用数值模拟来进行科学研究的相关人员根据科学目标进行鉴别和采用。 相似文献
6.
Comptonγ射线望远镜COMPTEL/CGRO工作于0.75-30MeV能区,本文应用直接解调方法分析CGRO#1观测的COMPTEL数据,准确定出Crabγ射线源的位置,在10-30MeV能区,分辨开最大似然法所不能完全分辨的Crabγ射线源和类星体PKS0528+134,得出优于传统成像方法所得的成像结果.应用直接成像方法处理γ射线脉冲星Geminga分位相数据,发现Geminga在10-30MeV能区仍存在辐射,辐射集中在Geminga第一个峰的位相区域.结果表明,应用直接解调方法对Compton望远镜数据作成像分析是完全可行的 相似文献
7.
射电Ⅳ型运动爆发同日冕物质抛射(CMEs)关系极为密切。本文基于对Ⅳ型运动爆发的研究以及CMEs开放场的物理条件,探讨了CMEs形成及抛射的物理条件。由于磁通量突然喷发,能量大量释放,在CME闭合场中的等离子体被加速,导致高能质子和高能电子被大磁环捕获。随着磁环内的热压P和磁压Pm的升高,当β〉βT时磁环将炸裂,从而产生CMEs。抛射出的未离化的等离子体团将产生等离子体基波与谐波辐射。随着等离子体 相似文献
8.
利用已知的统计结果对高红移类星体光谱进行MonteCarlo模拟,得到了UBVRI五色测光的色指数,并利用模拟的选择判据计算了选择效应函数,当2.4<z<3.0时,选择效应来自于与主序星的混淆;当z>3.0时,则是由于较暗的类星体与晚型矮星同时从U.B等颜色的图象上消失,导致可利用色指数的减少。 相似文献
9.
利用已知的统计结果对高红移类星体光谱进行Monte Carlo模拟,得到了UBVRI五色测光的色指数,并利用模拟的选择判据计算了选择效应函数,当2.4<z<3.0时,选择效应来自于与主序星的混淆,当z>3.0时,则是由于较暗的类星体与晚矮星同时从U.B等颜色的图像上消失,导致可利用色指数的减少。 相似文献
10.
射电Ⅳ型运动爆发同日冕物质抛射(CMEs)关系极为密切。本文基于对Ⅳ型运动爆发的研究以及CMEs开放场的物理条件,探讨了CMEs形成及抛射的物理条件。由于磁通量突然喷发,能量大量释放,在CME闭合场中的等离子体被加速,导致高能质子和高能电子被大磁环捕获。随着磁环内的热压P和磁压Pm的升高,当β>βT时磁环将炸裂,从而产生CMEs。抛射出的未离化的等离子体团将产生等离子体基波与谐波辐射。随着等离子体的不断离化,高能相对论电子绕开放磁场线作螺旋飞行,这时等离体辐射降到次要地位,回旋同步加速辐射上升到主导地位,这就是射电Ⅳ型运动爆发。如果离化的早,则在微波波段也能看到Ⅳ型运动爆发。这就是微波Ⅳ型爆发,也是微波Ⅳ型爆发罕见的原因。射电运动Ⅳ型爆发源就是日冕抛射的物质。 相似文献
11.
A two-shell moment method with three stream division of the radiation field has been suggested for solving radiative transfer
problems in a non-grey extended dust shell surrounding a central star. The results computed are found to be of comparable
accuracy with those of Unno and Kondo, obtained by generalized Eddington approximation. A more simplified approximation has
been put forward for an optically thin medium. 相似文献
12.
We have studied the nonlinear propagation of dust ion-acoustic (DIA) waves in a dusty multi-ion dense plasma (with the constituents being degenerate, either non-relativistic or ultra-relativistic) and the propagation of such waves have been investigated by the reductive perturbation method. From the stationary solution of the Korteweg de-Vries (K-dV) equation and Burgers’ equation the nonlinear waves (specially, solitary and shock waves) have been found to be formed in the dusty plasma system under consideration. It has shown that the basic features of these waves are significantly modified by both the positive and negative ions and dust number densities, the degenerate of the constituents. The implications of our results have been briefly discussed. 相似文献
13.
S. Van Loo I. Ashmore P. Caselli S. A. E. G. Falle T. W. Hartquist 《Monthly notices of the Royal Astronomical Society》2009,395(1):319-327
Using a time-dependent multifluid, magnetohydrodynamic code, we calculated the structure of steady perpendicular and oblique C-type shocks in dusty plasmas. We included relevant processes to describe mass transfer between the different fluids, radiative cooling by emission lines and grain charging, and studied the effect of single- and multiple-sized grains on the shock structure. Our models are the first of oblique fast-mode molecular shocks in which such a rigorous treatment of the dust grain dynamics has been combined with a self-consistent calculation of the thermal and ionization structures including appropriate microphysics. At low densities, the grains do not play any significant rôle in the shock dynamics. At high densities, the ionization fraction is sufficiently low that dust grains are important charge and current carriers and, thus, determine the shock structure. We find that the magnetic field in the shock front has a significant rotation out of the initial upstream plane. This is most pronounced for single-sized grains and small angles of the shock normal with the magnetic field. Our results are similar to previous studies of steady C-type shocks showing that our method is efficient, rigorous and robust. Unlike the method employed in the previous most detailed treatment of dust in steady oblique fast-mode shocks, ours allow a reliable calculation even when chemical or other conditions deviate from local statistical equilibrium. We are also able to model transient phenomena. 相似文献
14.
Our objective here is to investigate a strongly coupled dusty plasma system with the presence of polarization force (PF). This plasma consists of superthermal electrons, Maxwellian ions, and negatively charged dust grains. The nonlinear propagation of dust-acoustic (DA) waves in such dusty plasma system has been theoretically investigated by employing the reductive perturbation method. The Burgers’ and K-dV equations have been derived to and numerically analyzed. It has been found that the dust-acoustic shock and solitary waves exist associated with a negative potential only, and that the effect of the dust fluid temperature significantly modifies the basic properties (amplitude and width) of such nonlinear waves’ potential structures. We hope that the results of our present investigation should help us in understanding the localized electrostatic disturbances in space and laboratory strongly coupled dusty plasmas with superthermal electrons and polarization force. 相似文献
15.
Kristian Finlator Feryal Özel Romeel Davé 《Monthly notices of the Royal Astronomical Society》2009,393(4):1090-1106
We introduce a new code for computing time-dependent continuum radiative transfer and non-equilibrium ionization states in static density fields with periodic boundaries. Our code solves the moments of the radiative transfer equation, closed by an Eddington tensor computed using a long characteristics (LC) method. We show that traditional short characteristics and the optically thin approximation are inappropriate for computing Eddington factors for the problem of cosmological re-ionization. We evolve the non-equilibrium ionization field via an efficient and accurate (errors <1 per cent) technique that switches between fully implicit or explicit finite differencing depending on whether the local time-scales are long or short compared to the time-step. We tailor our code for the problem of cosmological re-ionization. In tests, the code conserves photons, accurately treats cosmological effects and reproduces analytic Strömgren sphere solutions. Its chief weakness is that the computation time for the LC calculation scales relatively poorly compared to other techniques ( t LC ∝ N ∼1.5 cells ) ; however, we mitigate this by only recomputing the Eddington tensor when the radiation field changes substantially. Our technique makes almost no physical approximations, so it provides a way to benchmark faster but more approximate techniques. It can readily be extended to evolve multiple frequencies, though we do not do so here. Finally, we note that our method is generally applicable to any problem involving the transfer of continuum radiation through a periodic volume. 相似文献
16.
Alan Paul Boss 《Icarus》1985,61(1):3-9
The presolar nebula may have formed from the collapse of a very slowly rotating interstellar cloud. The first three-dimensional, hydrodynamical calculations of the collapse of such clouds are presented. The models include radiative transfer in the Eddington approximation, as well as detailed equations of state appropriate for the nonisothermal regime of protostellar evolution. Very slowly rotating clouds, i.e., those with initial ratios of rotational energy to gravitational energy of 10?3 or less, avoid fragmentation and instead collapse to form single central objects, containing quasistatic cores with densities of about 10?10 g cm?3. These cores are, however, surrounded by significantly nonaxisymmetric regions, such that the presolar nebula would have been bar-like over the scale of the present solar system. This nonaxisymmetry, coupled with differential rotation, results in gravitational torques that produce rapid outward transfer of angular momentum. The center of the presolar nebula should then be able to contract and collapse to pre-main-sequence densities without suffering fission or fragmentation. 相似文献
17.
M. D. Gray 《Monthly notices of the Royal Astronomical Society》2001,324(1):57-67
I show that it is quite possible to obtain saturating amplification in the 13.44-GHz maser which is so far unique to W3(OH), using a combined radiative and collisional pumping scheme. The dominant radiative part of the pump involves far-infrared line overlap, and the far-infrared continuum is provided by dust, modelled as either a two-component mixture or composite grains. Transport of the far-infrared radiation is carried out via the accelerated lambda iteration method. The observational link between 13.44-GHz and 6035-MHz masers is reproduced by the model. Inadequate amplification in Sobolev models probably results from the optical depth limitations imposed by this approximation. I review the dust models used in far-infrared pumping models of OH masers, and conclude that the main consequence of moving from skewed blackbody functions to more sophisticated models is a selective pumping enhancement when ice mantles are included. 相似文献
18.
A moment method with three stream division of the radiation field was suggested by Wilson, Wan and Sen (1980) for solving radiative transfer problems in stationary, non-grey extended shells surrounding a central star. Use was made of the generalised Eddington relations as the closure conditions of the moment equations. In the present paper the same method has been utilised to study the radiative transfer problems in a non-grey, expanding gaseous spherical shells surrounding a central star. The transfer equation has been set in comoving frame in spherical geometry. The radiation and material quantities, angles and frequencies have been expressed in comoving frame. The mean intensity, flux and K-integrals have been calculated for extensive atmospheres in the presence of different velocity fields. 相似文献
19.
20.
A four-component dusty plasma consisting of electrons, ions, and negative as well as positive dust particles has been considered. The basic features of shock waves that may exist in such a four-component dusty plasma have been theoretically investigated by the reductive perturbation method. The implications of our results in different regions of space (viz. cometary tails, mesosphere, Jupiter’s magnetosphere, etc.) are briefly discussed. 相似文献