耀变体亮温度与黑洞喷流能量的相关性讨论     

晏培琳  张皓晶  马凯旋  陆林 《天文研究与技术》2021,(2):153-161

耀变体(Blazars)的亮温度与黑洞喷流能量和吸积率有重要关系。搜集了53个耀变体源样本,包括22个蝎虎天体(BL Lacs)和31个平谱射电类星体(Flat Spectrum Radio Quasars,FSRQs),研究了耀变体亮温度与黑洞喷流能量的分布,并对子类中亮温度与黑洞喷流能量的相关性进行了讨论。研究结果表明:(1)蝎虎天体与平谱射电类星体的亮温度与黑洞喷流能量的分布存在明显差异,这可能与蝎虎天体与平谱射电类星体的内禀性质有关,也可能与其有无发射线及发射线的强弱有关;(2)蝎虎天体的亮温度与黑洞喷流能量之间的相关性较强,亮温度可以在一定程度上描述蝎虎天体的黑洞喷流能量,亮温度大的蝎虎天体喷流携带的能量也较大;(3)平谱射电类星体的亮温度与黑洞喷流能量之间有弱相关性,平谱射电类星体的亮温度不能清楚地描述黑洞喷流能量,黑洞喷流能量受亮温度影响较小,平谱射电类星体的黑洞喷流能量可能受到其他因素的影响;(4)耀变体的亮温度与黑洞吸积率之间有弱的相关性。  相似文献   

射电噪类星体黑洞的质量和自旋与喷流能量的相关性     

《天文学报》2015,(5)

喷流的形成与黑洞质量及黑洞自旋之间存在着很大关系.讨论黑洞质量及黑洞自旋与喷流能量的关系对喷流形成及结构的研究有着重要的意义.从文献资料中收集了65个射电类星体源.这些源包含了35个陡谱射电类星体(SSRQs),30个平谱射电类星体(FSRQs).通过样本数据研究黑洞质量及黑洞自旋与喷流能量的相关性.研究结果表明:(1)65个射电类星体的黑洞质量与喷流能量存在明显的相关性,这与Zensus所得出的结论相同;(2)65个射电类星体的黑洞自旋与喷流能量存在相关性.尤其在爱丁顿磁场条件下(B=BEDD),黑洞自旋与喷流能量的相关性最为明显,其相关系数要比黑洞质量与喷流能量的相关系数高;(3)陡谱射电类星体与平谱射电类星体的自旋数据分布存在一定差异;(4)研究结果进一步证明了喷流能量不仅与黑洞质量有关,同时也很可能与黑洞的自旋能量存在关系.黑洞喷流的形成很可能是黑洞质量与黑洞自旋共同作用的结果.这些研究结果与其他方法获得的结果是一致的.  相似文献   

费米耀变体喷流功率与多波段光度的相关性研究     

《天文研究与技术》2021,(4)

耀变体的喷流辐射机制是一个非常重要的问题。从文献中收集了442个耀变体的数据,这些耀变体包括215个平谱射电类星体(Flat Spectrum Radio Quasars, FSRQ)和227个蝎虎天体(BL Lac),通过数据研究了耀变体的喷流功率与多波段光度的相关性。研究结果表明:(1)对于平谱射电类星体,喷流功率与射电波段、光学波段、X射线和γ射线的光度都有强相关性,且光度分布顺序为logL_γ logL_O logL_X logL_R。(2)对于蝎虎天体,喷流功率与射电波段、光学波段和γ射线的光度都有强相关性,但是喷流功率与X射线的光度只有弱相关性;蝎虎天体的光度分布顺序为logL_O logL_γ logL_X logL_R,而且蝎虎天体的各波段光度都小于平谱射电类星体。我们认为这些差异是由于平谱射电类星体与蝎虎天体的内禀属性不同导致的,即吸积模式不同和喷流辐射机制不同等。  相似文献   

Fermi耀变体的辐射特性和演化研究     

任国伟  张雄  张皓晶  李富婷  徐小林  余莲  吴月承  晏培琳 《天文研究与技术》2019,(3)

搜集和计算了734个Fermi耀变体样本,包括322个蝎虎天体(其中148个高峰频蝎虎天体、73个中峰频蝎虎天体以及101个低峰频蝎虎天体)和412个平谱射电类星体(其中18个高峰频平谱射电类星体、45个中峰频平谱射电类星体以及349个低峰频平谱射电类星体)。研究了每个子类的红移分布、黑洞质量分布以及γ射线光度的分布,并对其红移、黑洞质量、γ射线光度以及同步峰值频率的相关性进行了分析,结果表明:(1)根据红移与γ射线光度分别从高到低的排序,得到Fermi耀变体的演化序列遵循平谱射电类星体→蝎虎天体,且高同步峰频耀变体→中同步峰频耀变体→低同步峰频耀变体,但根据黑洞质量从高到低得到的演化序列不同,这可能是黑洞质量的估计误差以及黑洞质量样本数量较少造成的;(2)Fermi耀变体每个子类的红移与黑洞质量、黑洞质量与γ射线光度之间正相关;(3)Fermi耀变体每个子类的红移、γ射线光度分别与同步峰频之间反相关,黑洞质量与同步峰频之间不存在相关性。  相似文献   

射电类星体黑洞自旋与射电噪相关性研究     

《天文研究与技术》2015,(4)

黑洞自旋及其参量能提供射电类星体射电噪度的信息。从文献资料中收集了69个射电类星体源。这些源包含了37个陡谱射电类星体(SSRQs),32个平谱射电类星体(FSRQs)。通过样本数据研究黑洞自旋能量与射电类星体射电噪的相关性。研究结果表明:(1)37个陡谱射电类星体与射电噪存在明显的相关性。这种相关性在3种磁场条件下都存在(B=BEDD,B=104G,B∝j);(2)陡谱射电类星体与射电噪之间的相关性不受相对论聚束效应的影响;(3)32个平谱射电类星体与射电噪之间不存在相关性,这说明黑洞自旋与射电噪的相关性与射电类星体的类型有很大关系;(4)陡谱射电类星体黑洞自旋与射电噪的强相关性表明,黑洞自旋能量在一定程度上给出陡谱射电类星体射电噪度的信息。这些研究结果与其他人提出的理论是一致的。  相似文献   

Blazar天体的辐射特性研究     

郑永刚  杨卫国  张皓晶  张雄 《天文学报》2007,48(4):418-427

收集了47个Blazar天体的短时标光变资料,估算了中心天体质量和不同波段辐射区域,并对估算结果作了统计分析,发现Blazar天体中心黑洞质量在10~7M_☉到10~(10)M_☉之间,BL Lac天体与平谱射电类星体中心黑洞质量有很大差异,平谱射电类星体中心黑洞质量大于BL Lac天体中心黑洞质量;红外波段和γ射线波段辐射区域大小相似.同时,利用收集到Blazar天体的热光度分析了Blazar天体热光度与短时标光变之间的关系,证实了射电选BL Lac(RBL)天体和平谱射电类星体(FSRQs)的辐射是强成束的,但相对论聚柬效应对X射线选BL Lac(XBL)天体的辐射影响较小.  相似文献   

耀变体喷流性质研究     

《天文学报》2017,(4)

利用锥形喷流模型(conical jet model)拟合了55个费米耀变体的准同时性多波段观测数据,并研究了耀变体喷流的物理性质.通过卡方估计来找到模型的最优参数,与收集的其他参数进行统计分析.源的参数统计分析结果如下:(1)模型拟合得到的喷流功率要比利用延展射电光度得到的喷流功率大;(2)多普勒因子δ与磁感应强度B之间没有相关性;(3)喷流功率与吸积盘光度间存在相关性,Blandford-Znajek(BZ)机制能够很好地解释BL Lacs的喷流能量来源却不能解释平谱射电类星体(Flat Spectrum Radio Quasars,FSRQs);(4)喷流功率与黑洞质量之间有显著相关.  相似文献   

BL Lac 天体的γ射线辐射   总被引：4，自引：1，他引：3  

杨江河 《天文研究与技术》2005,2(2):67-74

活动星系核的γ射线辐射机制仍然是一个待解决的问题,BLLac天体是活动星系核的一类。文中选取了22个BLLac天体,用它们的最大值、最小值和平均值研究了在1GeV处γ射线辐射与射电8.4GHz处辐射之间可能存在的关系。主要结果如下:对于最小值而言,γ射线辐射与射电辐射流量密度之间没有相关性存在;对于最大值和平均值而言,它们的流量密度之间有较好的线性相关性;γ射线辐射与射电辐射谱指数之间也有相关性存在。根据研究结果,我们认为γ射线辐射机制主要是同步自康普顿辐射。  相似文献   

射电类星体黑洞质量和射电特性的研究     

熊定荣  张雄  郑永刚  黄邦蓉  毛李胜  刘文广 《天文学报》2012,(5):369-381

收集了117个类星体(20个射电宁静类星体和97个射电噪类星体)的红移、热光度、H_β发射线宽度、5 100 A的单色光度、射电噪度.利用反响映射法计算了样本的黑洞质量和爱丁顿比,利用总的5 GHz流量密度计算出射电光度.分析了它们之间的相关性,得到的结论如下:(1)射电宁静类星体的黑洞质量和热光度、射电噪度、射电光度之间具有弱相关性,而射电噪类星体黑洞质量和热光度、射电噪度、射电光度之间具有强相关性;(2)射电宁静类星体热光度和射电光度、5 100 A的单色光度之间具有弱的相关性,而射电噪类星体热光度和射电光度、5 100 A的单色光度之间具有强的相关性;(3)射电宁静和射电噪类星体的黑洞质量、发射线宽度和爱丁顿比分布有差异.基于这些结果得到:射电宁静和射电噪类星体发射线宽度的差异可能是导致它们黑洞质量不同的原因;射电宁静和射电噪类星体本质的不同是由于内秉物理性质的不同造成的;黑洞质量、黑洞自旋、爱丁顿比和寄主星系形态是解释射电噪度起源和双峰状分布的重要参量;射电喷流和盘的吸积率之间具有紧密的关系.  相似文献   

Blazar黑洞自旋能量与红移相关性研究     

张旭  张雄 《天文研究与技术》2015,(3)

黑洞自旋及其参量能提供黑洞合并及吸积的信息。从文献资料中收集了112个Blazar源,这些源包含了67个FR II射电星系(RG),11个FR II射电噪类星体(RLQ),27个核占优星系(CD)。通过样本数据研究黑洞自旋能量与红移的相关性。研究结果表明:(1)112个Blazar的黑洞自旋能量与红移存在相关性,尤其在爱丁顿磁场条件下(B=BEDD),黑洞自旋能量与红移的相关性最为明显;(2)FR II射电星系(RG)、FR II射电噪类星体(RLQ)、核占优星系(CD)的黑洞自旋能量在3种磁场条件下(B=BEDD,B=104G,B∝j)与红移的相关性强弱上存在差异,但总体趋势较为相似,均呈现正比关系;(3)黑洞自旋能量与红移的强相关性表明,黑洞自旋能量在一定程度上给出黑洞并合与吸积的信息。这些研究结果与其他人用其他方法获得的结果是一致的。  相似文献   

On the origin of the solar system and the exceptional position of the Sun in the Galaxy     

L. S. Marochnik 《Astrophysics and Space Science》1983,89(1):61-75

The solar system's position in the Galaxy is an exclusive one, since the Sun is close to the corotation circle, which is the place where the angular velocity of the galactic differential rotation is equal to that of density waves displaying as spiral arms. Each galaxy contains only one corotation circle; therefore, it is an exceptional place. In the Galaxy, the deviation of the Sun from the corotation is very small — it is equal to ΔR/R _⊙≈0.03, where ΔR=R _c ?R _⊙,R _c is the corotation distance from the galactic center andR _⊙ is the Sun's distance from the galactic center. The special conditions of the Sun's position in the Galaxy explain the origin of the fundamental cosmogony timescalesT ₁≈4.6×10⁹ yr,T ₂?10⁸ yr,T ₃?10⁶ yr detected by the radioactive decay of various nuclides. The timescaleT ₁ (the solar system's ‘lifetime’) is the protosolar cloud lifetime in a space between the galactic spiral arms. The timescaleT ₂ is the presolar cloud lifetime in a spiral arm.T ₃ is a timescale of hydrodynamical processes of a cloud-wave interaction. The possibility of the natural explanation of the cosmogony timescales by the unified process (on condition that the Sun is near the state of corotation) can become an argument in favour of the fact that the nearness to the corotation is necessary for the formation of systems similar to the Solar system. If the special position of the Sun is not incidental, then the corotation circles of our Galaxy, as well as those of other galaxies, are just regions where situations similar to ours are likely to be found.  相似文献   

Perturbations by the oblateness of the Earth and by the planets in the motion of the Moon     

Yoshio Kubo 《Celestial Mechanics and Dynamical Astronomy》1982,26(1):97-112

Perturbations in the motion of the Moon are computed for the effect by the oblateness of the Earth and for the indirect effect of planets. Based on Delaunay's analytical solution of the main problem, the computations are performed by a method of Fourier series operation. The effect of the oblateness of the Earth is obtained to the second order, partly adopting an analytical evaluation. Both in longitude and latitude are found a few terms whose coefficient differs from the current lunar ephemeris based on Brown's theory by about 0.01. While, concerning the indirect effect of planets, several periodic terms in the current ephemeris seem to have errors reaching 0.05.As for the secular variations of and due to the figure of the Earth and the indirect effect of planets, the newly-computed values agree within 1/cy with Brown's results reduced to the same values of the parameters. Further, the accelerations in the mean longitude, and caused by the secular changes in the eccentricity of the Earth's orbite and in the obliquity of the ecliptic are obtained. The comparison with Brown shows an agreement within 0.3/cy² for the former cause and 0.02/cy² for the latter. An error is found in the argument of the principal term for the perturbations due to the ecliptic motion in the current ephemeris.Proceedings of the Conference on Analytical Methods and Ephemerides: Theory and Observations of the Moon and Planets. Facultés universitaires Notre Dame de la Paix, Namur, Belgium, 28–31 July, 1980.  相似文献   

On the model of the accumulation of the moon compatible with the data on the composition and the age of lunar rocks     

E. L. Ruskol 《Earth, Moon, and Planets》1973,6(1-2):190-201

It is suggested that the overall early melting of the lunar surface is not necessary for the explanation of facts and that the structure of highlands is more complicated than a solidified anorthositic ‘plot’. The early heating of the interior of the Moon up to 1000K is really needed for the subsequent thermal history with the maximum melting 3.5 × 10⁹ yr ago, to give the observed ages for mare basalts. This may be considered as an indication that the Moon during the accumulation retained a portion of its gravitational energy converted into heat, which may occur only at rapid processes. A rapid (t < 10³ yr) accretion of the Moon from the circumterrestrial swarm of small particles would give necessary temperature, but it is not compatible with the characteristic time 10⁸ yr of the replenishment of this swarm which is the same as the time-scale of the accumulation of the Earth. It is shown that there were conditions in the circumterrestial swarm for the formation at a first stage of a few large protomoons. Their number and position is evaluated from the simple formal laws of the growth of satellites in the vicinity of a planet. Such ‘systems’ of protomoons are compared with the observed multiple systems, and the conclusion is reached that there could have been not more than 2–3 large protomoons with the Earth. The tidal evolution of protomoon orbits was short not only for the present value of the tidal phase-lag but also for a considerably smaller value. The coalescence of protomoons into a single Moon had to occur before the formation of the observed relief on the Moon. If we accept the age 3.9 × 10⁹ yr for the excavation of the Imbrium basin and ascribe the latter to the impact of an Earth satellite, this collision had to be roughly at 30R, whereR is the radius of the Earth, because the Moon at that time had to be somewhere at this distance. Therefore, the protomoons had to be orbiting inside 20–25R, and their coalescence had to occur more than 4.0x10⁹ yr ago. The energy release at coalescence is equivalent to several hundred degrees and even 1000 K. The process is very rapid (of the order of one hour). Therefore, the model is valid for the initial conditions of the Moon.  相似文献   

On the theory of the oblateness of the Sun     

Rozelot  J.P.  Godier  S.  Lefebvre  S. 《Solar physics》2001,198(2):223-240

In this paper we first emphasize why it is important to know the successive zonal harmonics of the Sun's figure with high accuracy: mainly fundamental astrometry, helioseismology, planetary motions and relativistic effects. Then we briefly comment why the Sun appears oblate, going back to primitive definitions in order to underline some discrepancies in theories and to emphasize again the relevant hypotheses. We propose a new theoretical approach entirely based on an expansion in terms of Legendre's functions, including the differential rotation of the Sun at the surface. This permits linking the two first spherical harmonic coefficients (J ₂ and J ₄) with the geometric parameters that can be measured on the Sun (equatorial and polar radii). We emphasize the difficulties in inferring gravitational oblateness from visual measurements of the geometric oblateness, and more generally a dynamical flattening. Results are given for different observed rotational laws. It is shown that the surface oblateness is surely upper bounded by 11 milliarcsecond. As a consequence of the observed surface and sub-surface differential rotation laws, we deduce a measure of the two first gravitational harmonics, the quadrupole and the octopole moment of the Sun: J ₂=−(6.13±2.52)×10⁻⁷ if all observed data are taken into account, and respectively, J ₂=−(6.84±3.75)×10⁻⁷ if only sunspot data are considered, and J ₂=−(3.49±1.86)×10⁻⁷ in the case of helioseismic data alone. The value deduced from all available data for the octopole is: J ₄=(2.8±2.1)×10⁻¹². These values are compared to some others found in the literature. Supplementary material to this paper is available in electronic form at http://dx.doi.org/10.1023/A:1005238718479  相似文献   

Accounting for the viscosity of the fluid core in the problem of the physical libration of the moon     

B. P. Kondratyev 《Solar System Research》2013,47(1):1-10

A two-component theoretical model of the physical libration of the Moon in longitude is constructed with account taken of the viscosity of the core. In the new version, a hydrodynamic problem of motion of a fluid filling a solid rotating shell is solved. It is found that surfaces of equal angular velocity are spherical, and a velocity field of the fluid core of the Moon is described by elementary functions. A distribution of the internal pressure in the core is found. An angular momentum exchange between the fluid core and solid mantle is described by a third-order differential equation with a right-hand side. The roots of a characteristic equation are studied and the stability of rotation is proved. A libration angle as a function of time is found using the derived solution of the differential equation. Limiting cases of infinitely large and infinitely small viscosity are considered and an effect of lag of a libration phase from a phase of action of an external moment of forces is ascertained. This makes it possible to estimate the viscosity and sizes of the lunar fluid core from data of observations.  相似文献   

On some problems concerning the calculation of the form of the magnetopause and the electric field on the magnetopause in the framework of the continuum medium model     

M. V. Samokhin 《Astrophysics and Space Science》1979,62(1):159-183

In order to understand the reason of the existence of the electric field in the magnetosphere, and for the theoretical evaluation of its value, it is necessary to find the solution of the problem of determination of the magnetosphere boundary form in the frameworks of the continuum medium model which takes into account part of the magnetospheric plasma movement in supporting the magnetospheric boundary equilibrium. A number of problems for finding the distribution of the pressure, the density, the magnetic field and the electric field on the particular tangential discontinuity is considered in the case when the form of discontinuity is set (the direct problem) and a number of problems for finding the form of the discontinuity and the distribution of the above-mentioned physical quantities on the discontinuity is considered when the law of the change of the external pressure along the boundary is set (for example, with the help of the approximate Newton equation). The problem which is considered here, which deals with the calculation of the boundary form and with the calculation of the distribution of the corresponding physical quantities on the discontinuity of the 1st kind for the compressible fluid with the magnetic field with field lines which are perpendicular to the plane of the flow in question, concerns the last sort of problems. The comparison of the results of the calculation with the data in the equatorial cross-section of the magnetosphere demonstrates that the calculated form of the boundary, the value of the velocity of the return flow and the value of the electric field on the magnetopause, agree satisfactorily with the observational data.  相似文献   

Determination of the distance of the sun from the center of the Galaxy deduced from the rotation curve     

L. V. Yurevich 《Astrophysics》1985,23(2):520-527

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On the position of the Sun in the Galaxy     

L. S. Marochnik 《Astrophysics》1983,19(3):278-283

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Third Integral and the Dynamics of the Galaxy in the Neighborhood of the Sun     

A. M. Boichenko 《Astrophysics》2004,47(1):134-142

Observational data on the dynamics of stars in the neighborhood of the sun indicate the existence of a third integral besides the integrals of the angular momentum and energy. The Poincaré integral is proposed as a third integral. The consequences of this assumption are derived and compared with available astrophysical data.  相似文献   

On the Nature of the Impactor That Formed the Shackleton Crater on the Moon     

Svetlana G. Pugacheva  Ekaterina A. Feoktistova  Vladislav V. Shevchenko 《Earth, Moon, and Planets》2016,118(1):27-50

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