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1.
分子云磁场与尘埃导致的偏振 总被引:1,自引:1,他引:0
磁场对分子云及其中的恒星的形成和演化起到重要的作用.分子云磁场的探测方法主要是谱线塞曼效应、尘埃热辐射的偏振,以及谱线的线偏振观测.利用谱线的塞曼效应可以直接测量视线方向的磁场强度.尘埃热辐射偏振可以有效地示踪磁场方向在天球上的分布.分子云内部的磁场会受到不同物理过程的影响.高分辨率观测可以研究磁场扰动的细节,低分辨率观测可以得到分子云甚至银河系大尺度磁场的宏观信息.只有多波段的观测才能全面地认识分子云磁场与各种物理过程的联系.该文对分子云尘埃热辐射偏振的观测情况做了调研,总结了分子云大尺度磁场的研究现状和发展前景. 相似文献
2.
倪陈平等利用最新的压力驱动雪耙相超新星遗迹演化公式解释了CTB 109的X射线半圆形形态。东半部激波的射电辐射是由CTB 109从自由相转化到绝热相时的湍动所增大的磁场以及由这湍动和激波加速的相对论电子所产生的。而分子云中激波产生的射电辐射是由星际磁场的激波加速和激波压缩所产生的,这一部分激波产生的射电流量远远小于东半部激波产生的相同频率处的射电辐射,而且也小于Green(1984)所有银河系超新星遗迹在相同频率处的射电流量,因而观测不到,所以CTB 109具有半圆形射电结构。 相似文献
3.
宇宙线的起源是高能天体物理的核心问题之一.一直以来,超新星爆发被认为是能谱膝区以下宇宙线的主要来源.多波段观测表明,超新星遗迹有能力加速带电粒子至亚PeV (10~(15)eV)能量.扩散激波加速被认为是最有效的天体高能粒子加速机制之一,而超新星遗迹的大尺度激波正好为这一机制提供平台.近年来,一系列较高精度的地面和空间实验极大地推动了对宇宙线以及超新星遗迹的研究.新的观测事实挑战着传统的扩散激波加速模型以及其在银河系宇宙线超新星遗迹起源学说上的应用,深化了人们对宇宙高能现象的认识.结合超新星遗迹辐射能谱的时间演化特性,构建的时间依赖的超新星遗迹粒子加速模型,不仅能够解释200 GV附近宇宙线的能谱反常,还自然地形成能谱膝区,甚至可以将超新星遗迹粒子加速对宇宙线能谱的贡献延伸至踝区.该模型预期超新星遗迹中粒子的输运行为表现为湍流扩散,这需要未来的观测以及与粒子输运相关的等离子体数值模拟工作来进一步验证. 相似文献
4.
超新星遗迹(supernova remnant,简写为SNR)在早期阶段的结构和演化是与周围星际介质环境密切相关的,这些星际介质也就成为研究SNR.演化的探针.观测了SN1572方向周围的12CO(J=1-0)谱线,拟调查SN 1572周围CO气体的分布,为研究SN 1572与周围分子气体的关系以及该超新星遗迹的演化提供观测依据.观测结果表明,在视向速度VLSR=-69~-58km s-1范围内的CO分子气体与SN 1572成协,此速度成分来自一个大尺度分子云.分子气体沿着SNR的射电壳边缘连续地但非均匀地分布,形成一个包围着SNR的半封闭的分子壳层.整个东半边有着增强的发射,尤其是东北边缘处的CO发射最强.峰值发射位置的谱线呈致宽(>5km s-1)的速度特征,结合光学,红外、X-射线等其它波段在对应位置上的已有观测,都表明了快速的激波和抛出物质正膨胀进入东北边缘的分子气体中,与稠密的气体发生相互作用.这种相互作用将对SN 1572今后的演化有着重要的影响. 相似文献
5.
从分子云演化的过程来讨论银河系中可能存在的超新星遗迹数目.对银河系分子云的观测已经得到了许多可靠的数据.如果这一研究结果在分子云方面能使理论值和观测值相匹配,那么由此导得的超新星事件结果也有一定的可靠性.结果表明,在内银河系中,可能存在的超新星遗迹约为(775±12)τ5.旋臂结构并不会提高超新星的诞生率,它仅使超新星遗迹的分布有所变化,即在旋臂区域增加,而在臂间区域减少. 相似文献
6.
当前超新星遗迹研究中的若干热点问题 总被引:1,自引:0,他引:1
对银河系内历史性超新星"回光"(light echoes)的观测是研究年轻超新星遗迹的重要手段。通过对"回光"进行观测,可以确认其前身星的物理特性,揭示恒星晚期演化过程和其星周介质的三维空间分布。历史性超新星直接"回光"极其暗弱,对其探测最近几年才因新技术的应用而得以实现。综述了河内超新星遗迹包括仅有的已探测到回光现象的两颗年轻超新星遗迹——第谷(SN1572)和仙后座A(CasA)的最新研究进展。研究结果有利于更好地理解Ⅰ型和Ⅱ型超新星的性质,区别两类超新星的爆发机制,加深对超新星的核合成、重元素合成、星系形成和演化、暗能量等的了解。讨论了利用回光观测可以进一步深入开展的研究课题。 相似文献
7.
对年轻超新星遗迹的射电观测有助于理解超新星遗迹的早期演化. 选取银河系最年轻的超新星遗迹\lk G1.9+0.3进行了研究. 收集了已有的射电流量密度测量, 转化到同一频率, 从而获得了G1.9+0.3的流量密度在过去近50 yr的演化. 发现流量密度在2008年之前几乎一直在增加, 随后开始减小, 流量密度达到峰值的年龄约为\lk 150--155 yr. 流量密度的增加可能由磁场放大或者粒子加速效率提高产生的高能电子增多导致. 根据流量密度到达峰值的年龄, 结合前人的数值模拟, 讨论了超新星抛射物的质量和超新星爆发释放的动能. 相似文献
8.
大视场巡天望远镜(Wide Field Survey Telescope,WFST)是采用主焦式光学设计、2.5 m口径、具备强大巡天能力的望远镜,可以开展大规模图像巡天,用于刻画银河系和近邻宇宙的组成和结构、普查太阳系天体和外部构成、开展时域天文监测等科学研究工作.结合大视场巡天望远镜光学系统的透过率、西藏阿里站址的大气透过率和冒纳凯阿台址的天光发射谱,比较不同电荷耦合器件(Charge Coupled Device,CCD)量子响应曲线、读出噪声和不同曝光时间情况下,不同类型天体在u、g、r、i、z和w波段的能谱响应,分析各个波段测光信噪比,优化确定CCD响应曲线和用于太阳系天体巡天的白光滤光片(w)设计.分析结果显示:蓝敏CCD对探测超新星等高能爆发暂现源有优势,但在r、i、z波段效率降低,从而降低这些波段的巡天探测灵敏度.光学宽带CCD响应曲线兼顾蓝端和红端能谱响应,在相同观测时间内,可以实现比蓝敏CCD更高的巡天灵敏度.采用宽带CCD响应曲线,结合估算的WFST系统光学成像效率及站址的天光和消光,计算给出了巡天观测对太阳系天体(G2V恒星光谱)、椭圆星系(E)、漩涡星系(Sbc/Scd)、不规则星系(Im)、类星体、I型和II型超新星的探测灵敏度.通过调节w波段的带宽和中心波长,可以实现对不同类型天体的能谱响应信噪比最大化.综合比较,确定w滤光片的优化设计波长范围为367–795 nm.最后,计算给出了各波段长期巡天图像数据叠加的探测灵敏度随曝光时间的变化曲线. 相似文献
9.
脉冲星的偏振信息是理解脉冲星辐射区的重要手段,利用澳大利亚的64m射电望远镜进行大量的脉冲星观测,得到了一批脉冲星的偏振轮廓和偏振参数,编辑了几乎所有发表的脉冲星轮廓资料,系统总结了脉冲星圆偏辐射的规律,为理论上解释脉冲星辐射这一重要难题提供观测依据和物理限制,利用脉冲星作为探针,研究了银河系磁场结构和模型,确定了银河系BS磁场模型,发现了银河系上下反对称的环向磁场,并首次对星系尺度的发电机类型进行判别,证认出A0型发电机运行于银河系,发现了银晕中的垂直磁场和M31及银盘中的非常延展的磁场,探测到NGC2997星系中由内到外的旋涡磁场,并提出可能有两种发电机在这个星系的不同区域运行。 相似文献
10.
11.
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
12.
13.
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
14.
Yoshio Kubo 《Celestial Mechanics and Dynamical Astronomy》2009,105(4):261-274
We calculate the so-called convective term, which shows up in the expression for the angular velocity of the elastic Earth,
within the Andoyer formalism. The term emerges due to the fact that the elasticity-caused perturbation depends not only on
the instantaneous orientation of the Earth but also on its instantaneous angular velocity. We demonstrate that this term makes
a considerable contribution into the overall angular velocity. At the same time the convective term turns out to be automatically
included into the correction to the nutation series due to the elasticity, if the series is defined by the perturbation of
the figure axis (and not of the rotational axis) in accordance with the current IAU resolution. Hence it is not necessary
to take the effect of the convective term into consideration in the perturbation of the elastic Earth as far as the nutation
is related to the motion of the figure axis. 相似文献
15.
Range of values of the Sun's mass quadrupole moment of coefficient J2 arising both from experimental and theoretical determinations enlarge across literature on two orders of magnitude, from
around 10-7 until to 10-5. The accurate knowledge of the Moon's physical librations, for which the Lunar Laser Ranging data reach an outstanding precision
level, prove to be appropriate to reduce the interval of J2 values by giving an upper bound of J2. A solar quadrupole moment as high as 1.1 10-5 given either from the upper bounds of the error bars of the observations, or from the Roche's theory, is not compatible with
the knowledge of the lunar librations accurately modeled and observed with the LLR experiment. The suitable values of J2 have to be smaller than 3.0 10-6.
As a consequence, this upper bound of 3.0 10-6 is accepted to study the impact of the Sun's quadrupole moment of mass on the dynamics of the Earth-Moon system. Such as
effect (with J2 = 5.5±1.3 × 10-6) has been already tested in 1983 by Campbell & Moffat using analytical approximate equations, and thus for the orbits of
Mercury, Venus, the Earth and Icarus. The approximate equations are no longer sufficient compared with present observational
data and exact equations are required. As if to compute the effect on the lunar librations, we have used our BJV relativistic
model of solar system integration including the spin-orbit coupled motion of the Moon. The model is solved by numerical integration.
The BJV model stems from general relativity by using the DSX formalism for purposes of celestial mechanics when it is about
to deal with a system of n extended, weakly self-gravitating, rotating and deformable bodies in mutual interactions.
The resulting effects on the orbital elements of the Earth have been computed and plotted over 160 and 1600 years. The impact
of the quadrupole moment of the Sun on the Earth's orbital motion is mainly characterized by variations of
,
, and
. As a consequence, the Sun's quadrupole moment of mass could play a sensible role over long time periods of integration of
solar system models.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
16.
Wu Lin-xiang 《Chinese Astronomy and Astrophysics》1992,16(4):427-433
By means of a simple relation between the velocity v of the fluid particle and the velocity vf of the photospheric footpoint of the magnetic field line vz and Bz being respectively the components of v and the magnetic field B normal to the photospheric surface, it is shown formally that through the phtospheric surface the transport of all the quantities attributed to the magnetic field, such as the magnetic flux, the magnetic energy and the helicity, is independent of vz, and vf is the only kinematical quantity on which the transport depends. In addition, in the neighborhood of the neutral line the velocity vl of the moving curve of constant Bz is found to be equal approximately to the component of v or vf in the direction of vl. Since vl can be measured or extimated, so can the components of v and vf near the neutral line. 相似文献
17.
L. E. Cram 《Solar physics》1976,48(1):3-19
When the K-corona is formed by the scattering of photospheric radiation from free electrons, the Fraunhofer lines are greatly broadened by the thermal motions of the hot electrons. This paper discusses the possibility of measuring the coronal electron temperature from the residual depressions in the K-coronal spectrum. If the ratio of the intensities at 4100 Å and 3900 Å can be measured to an accuracy of ±1%, the coronal temperature can be inferred to an accuracy of ±0.2 MK. The temperature of a coronal inhomogeneity may also be measured by this method, provided the position angle is known.Now at Fraunhofer Institute, Freiburg, Germany. 相似文献
18.
M. V. Samokhin 《Earth, Moon, and Planets》1993,61(1):29-37
Using the well-known equation for the normal component of the current which exist near the tangential discontinuity in the plasma in the case of the frozen-in magnetic field, and supposing that the current closes in the ionosphere in the auroral oval in the region 1, one calculates and compares with the data of observations the dependence of the density of the field-aligned current at the level of the ionosphere on the local time. 相似文献
19.
G. M. Petrov 《Astrophysics and Space Science》1991,177(1-2):269-270
The classical method of determination of the absolute azimuth (or Bessel's parameter n) can secure sufficiently precision for RA from observations of stars at high geographical latitudes during polar night only. 相似文献