关于近地小行星轨道演化的初步探索   总被引：2，自引：0，他引：2  

刘林  季江徽 《天文学报》1997,38(4):337-352

本文采用改进的显式辛算法和嵌套的PKF7（8）积分器同时对86颗已命名（或编号）的近地小行星的轨道演化进行了数值研究，在103－104年的时间尺度上，给出了这些小行星轨道演化的状况以及它们与几颗大行星靠近的最小距离，特别是与地球接近的最小距离可小于0．01天文单位，甚至可能比月球还更靠近地球．  相似文献   

共振在近地小行星轨道演化中的作用     

季江徽  刘林 《紫金山天文台台刊》2000,19(2):73-79

本文采用了合理的力学模型和可靠的计算方法,研究了近地小行星轨道运动,揭示了共振（轨道共振和长期共振）在其轨道演化中的作用,并初步探讨了近地小行星的起源问题。  相似文献   

近地小行星轨道演化的研究现状     

季江徽  刘林  廖新浩 《天文学进展》1999,(3)

近地小行星由于与地球的特殊关系为世人所瞩目, 对其研究始于５０ 年代, 近年来已成为太阳系动力学中的一个热门课题。全面地介绍了近年来关于近地小行星（ 小天体） 的研究状况, 包括对近地小行星轨道演化的研究方法和主要结果。阐明了在轨道演化过程中相应力学模型的选取、有关数值方法的引用以及积分步长变化的处理等具体问题, 并介绍了轨道长期共振的作用以及对这种共振的处理方法, 最后给出了根据目前研究所知的与地球轨道距离最近的一些小行星的轨道特征等。  相似文献   

皖小行星轨道演化的研究现状     

季江微  廖新浩 《天文学进展》1999,17(3):197-206

近地小行星由于地球的特殊关系为世人所瞩目,对其研究始于５０年代,近年来已成为太阳系动力学中的一个热门课题。全面地介绍了近年来关于近地小行星的研究状况,包括对近地小行星轨道演化的研究的方法和主要结果。  相似文献   

关于太阳系小天体轨道演化的算法研究     

刘林 《紫金山天文台台刊》1997,16(2):82-94

太阳系小天体的运动对应—哈密顿(Hamilton)系统,对其轨道演化的数值研究宜采用哈密顿算法(即辛算法)。本文将仔细讨论这一问题,并以主带小行星的运动为例,较系统地介绍几种辛算法对应的显式辛差分格式。  相似文献   

近地小行星轨道演化的研究     

刘林  季江徽 《天文学报》2001,42(1):75-80

主要阐述近年来在近地小行星轨道演化研究工作中所获得的一些基本结果，即合理的力学模型和相应的有效算法，并以实际预报算例（近地小行星与地球的交会状态）与有关权威性的结果作了比较，证实这些研究结果确实是可信的。在给出的力学模型中，考虑了所有可能影响近地小行星运动的力学因素，包括各大天体和较大的主带小行星的引力作用、有关天体的扁率影响以及源于太阳引力的后牛顿效应。而在计算方法中，合理地处理了变步长问题和月球位置量这种相对而言的快变化问题，使得数值求解一个高维方程组时，对各天体而言，可采用同一步长进行 积分，避免了求解过程中的复杂性。  相似文献   

近地小行星轨道演化的研究     

刘林  季江徽 《紫金山天文台台刊》2000,19(2):69-72

本文主要阐述了近年来我们在近地小行星轨道演化研究所获得的一些基本结果,即合理的力学模型和相应的有效算法,并以实际预报算例与有关权威性的结果作了比较,证实这些研究结果确实是可信的。  相似文献   

学术活动     

《天文学进展》1998,(1)

中国天广学术会议200）：太阳系小天体的探测与运动专题讨论会（1997年7月17－21日,长春）2中国天文学会天体力学卫星动力学专业委员会由中国天文学会天体力学专业委员会与卫星动力学专业委员会联合举办的《太阳系小天体的探测与运动》专题讨论会于1997年7月17日至21日在长春市召开．出席会议的24位代表来自国内各天文台、人卫站、国防科工委的有关研究所和高等学校等八个单位,其中年轻代表占50％．会议上所作的报告内容涉及下述三个专题：1．"近地小行星的探测与轨道演化的研究"．紫金山天文台与北京天文台的代表在会上对近地小行星的探…  相似文献   

宇宙信息     

谢天 《天文爱好者》2010,(3):16-19

WISE首次发现近地小行星 美国宇航局的大视场红外巡天探测器（WISE）新发现了它的首颗近地小行星,而预计在整个工作寿命中它总共会发现大约数百颗。：这颗直径1千米的小行星编号为2010 AB78,发现于2010年1月12日。发现时它距离地球大约1．58亿千米,不会对地球构成威胁,在未来的几个世纪中它也不会接近地球。这颗小行星在一条椭圆轨道上绕太阳运动,而它的轨道面也并不和地球公转轨道面重合。  相似文献   

短期威胁小行星          下载免费PDF全文

朱进  杨志涛  甘庆波  赵海斌  霍卓玺 《天文学报》2021,62(5):57

为更明确近地小行星撞击地球威胁的监测预警需求, 提出了"短期威胁小行星"的概念, 即未来100yr内可能对地球造成撞击威胁且等效直径大于10m的近地小行星. 以目前已发现的756颗短期威胁小行星为基础, 分析短期威胁小行星的轨道分布特点, 研究显示其与一般近地小行星的轨道分布存在差异, 短期威胁小行星的轨道半长轴更集中于1au, 轨道面更集中于黄道面. 基于近地小行星的数量模型, 初步建立了短期威胁小行星的数量估计模型, 并预估了未来100yr内存在撞击可能的短期威胁小行星的总体数量. 短期威胁小行星的特定研究对制定近地小行星搜巡监测策略有重要意义.  相似文献   

Vesta fragments from v6 and 3:1 resonances: Implications for V-type near-Earth asteroids and howardite,eucrite and diogenite meteorites     

F. MIGLIORINI  A. MORBIDELLI  V. ZAPPAL  B. J. GLADMAN  M. E. BAILEY  A. CELLINO 《Meteoritics & planetary science》1997,32(6):903-916

Abstract— A large body of evidence, including the presence of a dynamical family associated with 4 Vesta, suggests that this asteroid might be the ultimate source of both the V-type near-Earth asteroids (NEAs) and howardite, eucrite and diogenite (HED) meteorites. Dynamical routes from Vesta to the inner regions of the solar system are provided by both the 3:1 mean-motion resonance with Jupiter and the V₆, secular resonance. For this reason, numerical integrations of the orbits of fictitious Vesta fragments injected in both of these resonances have been performed. At the same time, the orbital evolution of the known V-type NEAs has been investigated. The results indicate that the dynamical half lifetimes of Vesta fragments injected in both the 3:1 and the V₆, resonances are rather short ('2 Ma). The present location of the seven known V-type NEAs is better explained by orbital evolutions starting from the v₆ secular resonance. The most important result of the present investigation, however, is that we now face what we call the “Vesta paradox.” Roughly speaking, the paradox consists of the fact that the present V-type NEAs appear to be too dynamically young to have originated in the event that produced the family, but they are too big to be plausible second-generation fragments from the family members. The cosmic-ray exposure (CRE) age distribution of HED meteorites also raises a puzzle, since we would expect an overabundance of meteorites with short CRE ages. We propose different scenarios to explain these paradoxes.  相似文献   

On the detection of the Yarkovsky effect on near-Earth asteroids by means of Gaia     

Marco Delbo’  Paolo Tanga  Francois Mignard 《Planetary and Space Science》2008,56(14):1823-1827

The Yarkovsky effect, which causes a slow drifting of the orbital elements (mainly the semimajor axis) of km-sized asteroids and meteors, is the weak non-gravitational force experienced by these bodies due to the emission of thermal photons. This effect is believed to play a role in the delivery of near-Earth asteroids (NEAs) from the main belt, in the spreading of the orbital elements of asteroid families, and in the orbital evolution of potentially hazardous asteroids.Here we present preliminary results of simulationing indicating that the perturbations induced by the Yarkovsky effect on the positions of some tens of NEAs can be observed by means of the high-precision astrometric observations that will be provided by the ESA mission Gaia.  相似文献   

Generalized Averaging Principle and the Secular Evolution of Planet Crossing Orbits     

Giovanni Federico Gronchi 《Celestial Mechanics and Dynamical Astronomy》2002,83(1-4):97-120

Planet crossing orbits give rise to mathematical singularities that make it not possible to apply the classical averaging principle to study the qualitative evolution of Near Earth Asteroids (NEAs). Recently this principle has been generalized to deal with crossings in a mathematical model with the planets on circular coplanar orbits. More accuracy is needed to compute the averaged evolution of planet crossing orbits for different purposes: computing reliable crossing times for the averaged motion, writing more precise proper elements and frequencies for NEAs, etc. In this paper we present the generalization of the averaging principle using a model where the eccentricity and the inclination of the planets are taken into account.  相似文献   

Symplectic adaptive algorithm for solving nonlinear two-point boundary value problems in Astrodynamics     

H. J. Peng  Q. Gao  Z. G. Wu  W. X. Zhong 《Celestial Mechanics and Dynamical Astronomy》2011,110(4):319-342

In this paper, from a Hamiltonian point of view, the nonlinear optimal control problems are transformed into nonlinear two-point boundary value problems, and a symplectic adaptive algorithm based on the dual variational principle is proposed for solving the nonlinear two-point boundary value problem. The state and the costate variables within a time interval are approximated by using the Lagrange polynomial and the costate variables at two ends of the time interval are taken as independent variables. Then, based on the dual variational principle, the nonlinear two-point boundary value problems are replaced by a system of nonlinear equations which can preserve the symplectic structure of the nonlinear optimal control problem. Furthermore, the computational efficiency of the proposed symplectic algorithm is improved by using the adaptive multi-level iteration idea. The performance of the proposed algorithm is tested by the problems of Astrodynamics, such as the optimal orbital rendezvous problem and the optimal orbit transfer between halo orbits.  相似文献   

Orbital Evolution of Příbram and Neuschwanstein     

Leonard Kornoš  Juraj Tóth  Peter Vereš 《Earth, Moon, and Planets》2008,102(1-4):59-65

The orbital evolution of the two meteorites Příbram and Neuschwanstein on almost identical orbits and also several thousand clones were studied in the framework of the N-body problem for 5,000 years into the past. The meteorites moved on very similar orbits during the whole investigated interval. We have also searched for photographic meteors and asteroids moving on similar orbits. There were five meteors found in the IAU MDC database and six NEAs with currently similar orbits to Příbram and Neuschwanstein. However, only one meteor 161E1 and one asteroid 2002 QG46 had a similar orbital evolution over the last 2,000 years.  相似文献