共查询到20条相似文献,搜索用时 109 毫秒
1.
简要说明了天文地球动力学范畴内所研究的潮汐现象,包括由日月引潮力引起的固体潮、海洋潮、大气潮和由于地球自转轴的极移引起的极潮,以及这些潮汐对地球自转和地球自转的测量产生的效应。重点阐述中国天文学界在这一领域里的研究成果。这些研究涉及潮汐影响地球自转的机制,也就是各种潮汐效应与极移、自转速率变化和章动的关系,包括构建这类关系的理论模型,分析潮汐对它们的影响,利用中国古代丰富的天象记录计算地球自转的长期减慢,计算弹性或滞弹地球的洛夫数,依据某一地球模型计算潮汐效应或章动序列等等。研究也涉及在测量地球自转参数的不同技术中各种潮汐效应对测量结果产生的影响及其改正,并涉及与潮汐有关的观测方法的优化和数据处理过程的改进。最后介绍了中国学者所发现的脉冲星的周期和周期变率测量中的潮汐效应,尽管它们的量级甚微,但不容忽视。 相似文献
2.
3.
4.
根据液核地球动力学原理,重新推导了在日月子引潮力作用下的地球自转速率变化的理论公式,由此明确地引入了液核影响因子,它与地球和液核的极转动惯量的变化有关。不同于Yoder.C.F(1981)的理论,本文给出了基于引潮力位Doodson展开的地球自转速率变化、日长变化和世界时变化的理论公式,指出尺度因子的转动惯量应取为地幔的有效极转动惯量,Love数应取地幔的有效Love数的理由. 相似文献
5.
对太阳活动和太阳风影响地球自转的研究现状作了评述。首先了地球自转变化的表示和测定方法,引起地球自转变化的各种扰动源以及自转长期变化中的潮汐效应和非潮汐效应。然后对地球自转变化中的太阳活动周期调制,太阳耀斑可能引起地球自转突然减速以及太阳风能否影响地球自转等问题的国内外研究现状和结果、分析作了谰论性阐述,最后作了简要总结。 相似文献
6.
由地震引起地球内部质量重新分布将影响地球惯量矩的变化,从而引起地球自转速率的变化,即日长的变化。一般说,大地震产生大的附加位移场。它对地球自转特性有较强的影响。本文采用Harvard目录中1977-1994年间的地震有关参数,和根据地震激发地球自转的变化理论及Dahlen和Lam-beck推出有关公式计算了地震引起地球轴向惯量矩的变化。结果表明:由单个地震引起的日长变化要比观测值小几个量级,它的累积效应表现出长期的变化即日长减小,就是地震活动加速地球自转。地震使地球自转能量随时间稳定地增加。并表明,虽地震活动影响日长,但它不是十年尺度变化的主要原因,它可能是地球自转非潮汐加速机制之一 相似文献
7.
本文提出了一种三轴小行星光变曲线理论计算的新方法.文中采用三轴椭球形小行星模型,仅考虑自由惯性转动,直接从刚体自由转动的欧拉方程出发进行数值计算,得到了三轴小行星的自转轴在本体内部和空间的位置变化和计算光变曲线.结果表明,历来在小行星光变理论研究中认为自转轴在空间指向不变的基本假设是不尽合理的。由不规则小行星的自由转动而引起它的自转轴位置的变化,是造成小行星实测光变曲线与理论光变曲线之间存在偏差的不可忽视的因素. 相似文献
8.
地震引起地球自转速率变化的分析 总被引:2,自引:0,他引:2
由地震引起地球内部质量重新分布将影响地球惯量量矩的变化,从而引起地球自转速率的变化,即日长的变化。一般说,大地震产生大的附加位移违抗和。它对地球自转特性有影响。本文采用Harvard目录中1977-1994年产的地震有关参数,和根据地震激发地球自转的变化理论及Dahler和Lambeck有关公式计算了地震引起地球辆向惯量矩的变化。结果表明:由单个地震引起的日长变化要比观测值小几个量级,它的累积效应 相似文献
9.
六十年代以来,国际上相继出现了一些先进的天文观测技术,使天体测量学、空间大地测量学和地球物理学等几门学科密切地联系起来,确定地球运动及其变化,进而探索地球运动及其变化的力学机制。天文学不仅拥有近百年地面经典观测的资料,而且随着甚长基线干涉仪、激光月球和人卫测距仪、人卫多普勒技术、空间地球动力学卫星、 相似文献
10.
天文地球动力学利用空间与地面观测手段 ,监测和研究地球整体与各圈层的物质运动以及它们间的相互作用 ,这都离不开广义相对论涉及的时间与空间。随着空间对地观测精度的提高 ,为了充分利用高精度观测提供的信息 ,在天文地球动力学的研究中必须考虑相对论效应。所涉及的相对论效应包括 :( 1 )相对论参考系的建立 ,( 2 )在恰当的参考系中对观测者和被观测对象的相对论运动方程 (平动和自转 )的描述 ,( 3 )观测者和被观测对象间的电磁信号传播 ,( 4 )依赖于坐标选择的结果与具有物理意义的可观测量间的转换 ,( 5)某些基本概念与定义在广义相对论框架下的重新确认。本文对天文地球动力学中的这些相对论效应作了简要的评述。 相似文献
11.
在日月引潮力势作用下地球产生弹性形变.地幔粘滞性子致这个形变对于引潮力滞后,成为引起地球自转长期减慢的原因之一.地幔滞弹性也使有效洛夫数k增加,并使自转变化的周期项位相滞后,即产生反常位相项.本文首先用Hamilton方法计算了地球的形变.然后考虑到地幔的滞弹性,计算了在日月引潮力作用下的地球自转长期减慢和滞弹性对周期(带谐)变化的影响. 相似文献
12.
Horizontal branch stars should show significant differential rotation with depth. Models that assume systematic angular momentum exchange in the convective envelope and local conservation of angular momentum in the core produce HB models that preserve a rapidly rotating core. A direct probe of core rotation is available. The nonradial pulsations of the EC14026 stars frequently show rich pulsation spectra. Thus their pulsations probe the internal rotation of these stars, and should show the effects of rapid rotation in their cores. Using models of sdB stars that include angular momentum evolution, we explore this possibility and show that some of the sdB pulsators may indeed have rapidly rotating cores. 相似文献
13.
The problem of the interaction between magnetic fields and differential rotation in the radiative zone of the Sun is investigated. It is demonstrated that effects of magnetic buoyancy can be neglected in the analysis of this interaction. It is shown that hydromagnetic torsional waves propagating from the solar core cannot be responsible for the 22-year solar cycle. A possible geometry of the magnetic field that conforms with stationary differential rotation is considered. A verifying method for hypotheses on the structure of the magnetic field and torsional oscillations in the radiative zone of the Sun is proposed based on helioseismic data. 相似文献
14.
《Planetary and Space Science》2007,55(4):407-412
We study how the pattern of thermal convection and differential rotation in the interior of a giant gaseous planet is affected by the presence of a small solid core as a function of the planetary rotation rate. We show, using 2D anelastic, hydrodynamic simulations, that the presence of a small solid core results in significantly different flow structure relative to that of a fully convective interior only if there is little or no planetary rotation. 相似文献
15.
M. Lazrek A. Pantel E. Fossat B. Gelly F. X. Schmider D. Fierry-Fraillon G. Grec S. Loudagh S. Ehgamberdiev I. Khamitov J. T. Hoeksema P. L. Pallé C. Régulo 《Solar physics》1996,166(1):1-16
The Sun is not a rigid body and it is well known that its surface rotation is differential, the polar regions rotating substantially slower than the equator. This differential rotation has been demonstrated by helioseismology to continue down to the base of the convective zone, below which it becomes closer to a rigid body rotation. Far deeper, inside the energy generating core, the rotation has generally been assumed to be much faster, keeping memory of the presumably high speed of the young Sun. However, several recent results of helioseismology have decreased this likelihood more and more, so that the core rotation could be suspected to be only marginally, or even not at all faster than the envelope. Certain results would even imply a core rotation slower than the envelope, an interesting but unlikely possibility. We present here a complete analysis of the rotational splitting of the low degree modes measured in three different time series obtained in 1990, 1991, and 1992 by the IRIS full-disk network. With a time of integration slightly longer than 4 months, the splitting has been measured by 4 different global methods on 42 doublets of l
= 1, 35 triplets of l = 2, and 30 quadruplets of l = 3. With a high level of confidence, our result is consistent with a rigid solar core rotation. 相似文献
16.
Hirokazu Yoshimura 《Solar physics》1972,22(1):20-33
The relation between the systematic time variations of the solar differential rotation at middle latitudes and the asymmetry of global distribution of the solar activity is discussed in connection with the study of the maintenance of the solar differential rotation. The systematic variations at middle latitudes are inferred from a peculiar correlation in the time variations of the solar differential rotation which is shown in this paper to be implied in the data of Howard and Harvey (1970) of spectroscopic measurements of rotational velocities. If we adopt the working hypothesis of the solar equatorial acceleration maintained by the angular momentum transport due to the very large scale convection, the two phenomena are related through the concurrent presence of the neighboring modes with the presumed dominant mode of the very large scale convection. 相似文献
17.
In the present paper, we have discussed the propagation of spherical shock waves in a radiating magnetohydrodynamic rotating interplanetary medium. The effects of force of self-gravitation have been taken into account with the assumption that at the equilibrium position the effects of rotation on the force of gravitation are negligible. The combined effects of rotation and gravitation on the variation of flow variables have been shown in tables. The particular cases of the problem have been discussed and compared by considering effects of rotation and gravitation separately. 相似文献
18.
B.P. Brown M.K. Browning A.S. Brun M.S. Miesch J. Toomre 《Astronomische Nachrichten》2007,328(10):1002-1005
In the solar convection zone, rotation couples with intensely turbulent convection to build global-scale flows of differential rotation and meridional circulation. Our sun must have rotated more rapidly in its past, as is suggested by observations of many rapidly rotating young solar-type stars. Here we explore the effects of more rapid rotation on the patterns of convection in such stars and the global-scale flows which are self-consistently established. The convection in these systems is richly time dependent and in our most rapidly rotating suns a striking pattern of spatially localized convection emerges. Convection near the equator in these systems is dominated by one or two patches of locally enhanced convection, with nearly quiescent streaming flow in between at the highest rotation rates. These active nests of convection maintain a strong differential rotation despite their small size. The structure of differential rotation is similar in all of our more rapidly rotating suns, with fast equators and slower poles. We find that the total shear in differential rotation, as measured by latitudinal angular velocity contrast, ΔΩ, increases with more rapid rotation while the relative shear, ΔΩ/Ω, decreases. In contrast, at more rapid rotation the meridional circulations decrease in both energy and peak velocities and break into multiple cells of circulation in both radius and latitude. (© 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
19.
地球自转长期变化的研究依赖于古代天象记录.近年来这方面研究取得明显进展.本文着重介绍作者由中国古代公元十世纪以前732个月掩犯记录得到的最新结果,并与其他结果进行了对比和综合分析,中国月掩犯记录填补了公元三至八世纪的资料缺环,并证实了公元五世纪前后地球自转非潮项的明显变化. 相似文献
20.
R.A. GarcÍa T. Corbard W.J. Chaplin S. Couvidat A. Eff-Darwich S.J. Jiménez-Reyes S.G. Korzennik J. Ballot P. Boumier E. Fossat C.J. Henney R. Howe M. Lazrek J. Lochard P.L. Pallé S. Turck-Chièze 《Solar physics》2004,220(2):269-285
In the modern era of helioseismology we have a wealth of high-quality data available, e.g., more than 6 years of data collected
by the various instruments on board the SOHO mission, and an even more extensive ground-based set of observations covering
a full solar cycle. Thanks to this effort a detailed picture of the internal rotation of the Sun has been constructed. In
this paper we present some of the actions that should be done to improve our knowledge of the inner rotation profile discussed
during the workshop organized at Saclay on June 2003 on this topic. In particular we will concentrate on the extraction of
the rotational frequency splittings of low- and medium-degree modes and their influence on the rotation of deeper layers.
Furthermore, for the first time a full set of individual |m|-component rotational splittings is computed for modes ℓ≤4 and 1<ν<2 mHz, opening new studies on the latitudinal dependence
of the rotation rate in the radiative interior. It will also be shown that these splittings have the footprints of the differential
rotation of the convective zone which can be extremely useful to study the differential rotation of other stars where only
these low-degree modes will be available. 相似文献