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1.
V. Formisano G. Bellucci A. Grigoriev A. Coradini J. P. Bibring 《Il Nuovo Cimento C》1992,15(6):1113-1119
Summary Multispectral imaging of planets opens a new class of studies of atmospheric and surface signatures. With ISM experiment on
board Phobos, the first IR multispectral imaging of Mars from space was achieved. In viem of the Future Omega experiment on
board Mars 94, we present here a sample of data and results (and problems) which can be achieved by studying spectral reflectance.
Paper presented at the V Cosmic Physics National Conference, S. Miniato, November 27–30, 1990. 相似文献
2.
The inner-shell structure of some heavy atoms is examined using a self-consistent relativistic local density method. Ar(K), Kr(K) and Xe (K,L
1,L
2 andL
3) binding energies and {ie863-1} (hyper-satellite) energies of Tl, Hg and Tm are calculated. The results are compared with
available experimental data.
A part of this work was presented byMPD at the Trieste International Symposium on “Core level excitations in atoms, molecules and solids,” 22–26 June 1981, Extended
Abstracts (ed.) E Tosatti, ICTP Report No. 89/81 p. 11. 相似文献
3.
远程交会是静止轨道共位卫星自主定点置入的关键途径。针对远程交会过程中大距离跨度下相对运动模型的误差信号特性,理论推导了误差的传递机理,给出了相对导航EKF算法期望及噪声特性的定量分析模型。研究表明,确定距离区间存在最优过程噪声量级及其对应的最优滤波性能,且滤波误差与交会距离正相关,可作为全局最优滤波器的定量设计依据,解决了静止轨道远程交会过程EKF导航算法性能的量化评估问题。仿真表明,分析结论正确,相对速度滤波误差全程优于0.005 m/s(1σ),满足交会任务需求。 相似文献
4.
The stability of high‐frequency potential surface waves at a dense magnetized plasma – metal interface with respect to a low‐frequency plasma density modulation is studied in the point of view of the surface waves control. The discussion is addressed to the situation, when an external steady magnetic field is directed perpendicularly to the interface. The nonlinear interaction process of the high‐frequency surface wave, its satellites and the low‐frequency plasma density perturbation is investigated. It is shown that the low‐frequency plasma density perturbation can be represented as a superposition of forced waves of surface and volume types and can lead to an additional attenuation of the surface waves. This attenuation arises when the surface wave amplitude exceeds the threshold value. (© 2003 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim) 相似文献
5.
Marco Grandis 《Applied Categorical Structures》1997,5(1):75-97
We study here a notion of simplicial satellites, as a first step towards a characterisation of simplicial derived functors, a problem unsolved since the latter were introduced.The problem comes from the fact that, in contrast with the abelian case, simplicial derived functors do not produce by themselves an exact sequence. Our solution consists in extending them to commutative k-cubes, for all k, forming thus an exact system of functors universal within the connected ones; or, in other words, a system of simplicial satellites. The tool we develop here for this extension is the homotopy kernel of a commutative k-dimensional cubic diagram, generalising the homotopy kernel of a map; its 2-dimensional version has already been proved essential in other homotopical topics. 相似文献
6.
Paul Williams 《Nonlinear dynamics》2008,52(1-2):159-179
A methodology for deployment/retrieval optimization of tethered satellite systems is presented. Previous research has focused
on the case where the tether is modeled as an inelastic, straight rod for the determination of optimal system trajectories.
However, the tether shape and string vibrations can often be very important, particularly when the deployment/retrieval speed
changes rapidly, or when external forces such as aerodynamic drag or electrodynamic forces are present. An efficient mathematical
model for flexible tethered systems is first derived, which treats the tether as composed of a system of lumped masses connected
via inelastic links. A tension control law is presented based on a discretization of the tether length dynamics via Chebyshev
polynomials. A scheme that minimizes the second derivative of length over the trajectory based on physically meaningful coefficients
is presented. This is utilized in conjunction with evolutionary optimization methods to minimize the rigid body and flexible
modes of the system during deployment/retrieval. It is shown that only a very small number of parameters are required to generate
accurate trajectories. The results are compared to the case where the tether is modeled as a straight rod. 相似文献
7.
用相对论多组态 (HXR)方法 ,详细计算了类Ne氪离子 4d 2 p类Na 3l4l′双电子伴线波长和强度因子 ,并模拟了实验光谱 ,解释了最新利用激光气体靶产生的 0 .5 2 5~ 0 .5 5 5nm范围的氪X Ray光谱 ,计算结果与实验符合得相当好。此外 ,还讨论了组态相互作用对双电子伴线结构的影响。 相似文献
8.
将行星重力的广义相对论后牛顿近似应用于木星系统和撞击木星的彗星Shoe maker Levy 9,计算了木星重力的后牛顿改正和它的卫星的进动效应,并与地球月球系统作比较,进行分析和讨论
关键词:
重力的后牛顿近似
木星及其卫星
彗星Shoe maker-Levy 9
广义相对论 相似文献
9.
Physical analysis on improving the recovery accuracy of the Earth’s gravity field by a combination of satellite observations in along-track and cross-track directions 总被引:1,自引:0,他引:1 下载免费PDF全文
The physical investigations on the accuracy improvement to the measurement of the Earth's gravity field recovery are carried out based on the next-generation Pendulum-A/B out-of-plane twin-satellite formation in this paper. Firstly, the Earth's gravity field complete up to degree and order 100 is, respectively, recovered by the collinear and pendulum satellite formations using the orbital parameters of the satellite and the matching accuracies of key payloads from the twin GRACE satellites. The research results show that the accuracy of the Earth's gravity field model from the Pendulum-A/B satellite formation is about two times higher than from the collinear satellite formation, and the further improvement of the determination accuracy of the Earth's gravity field model is feasible by the next-generation Pendulum-A/B out-of-plane twin-satellite formation. Secondly, the Earth's gravity field from Pendulum-A/B complete up to degree and order 100 is accurately recovered based on the orbital parameters of the satellite (e.g., an orbital altitude of 400 km, an intersatellite range of 100 km, an orbital inclination of 89° and an orbital eccentricity of 0.001), the matching accuracies of space- borne instruments (e.g. 10-6 m in the intersatellite range, 10-3 m in the orbital position, 10-6 m/s in orbital velocity, and 10-11 m/s2 in non-conservative force), an observation time of 30 days and a sampling interval of 10 s. The measurement accuracy of the Earth's gravity field from the next-generation Pendulum-A/B out-of-plane twin-satellite formation is full of promise for being improved by about l0 times compared with that from the current GRACE satellite formation. Finally, the physical requirements for the next-generation Pendulum-A/B out-of-plane twin-satellite formation are analyzed, and it is proposed that the satellite orbital altitude be preferably designed to be close to 400±50 km and the matching precision of key sensors from the Pendulum-A/B mission be about one order of magnitude higher tha 相似文献
10.
V. Formisano V. Moroz E. Amata P. Baldetti G. Bellucci G. Chionchio A. Matteuzzi R. Orfei G. Piccioni A. Carusi et al. 《Il Nuovo Cimento C》1993,16(5):575-588
Summary PFS is a two-channel Fourier spectrometer operating in the infra-red wavelengths between 1.25 and 45 μm. The instrument will
be used mainly in the study of the Martian atmosphere. The principal goals are the measurements of the atmospheric temperature
and pressure, atmospheric constituents, aerosol and clouds, ground pressure for surface topography, optical and thermophysics
properties of the Martian soil. PFS will fly on the Mars 94 spacecraft which should be launched in 1994 and reach the planet
in 1995. It is essentially constituted by two different interferometers located in the same box which is divided into two
parts. A dichroic placed on the PFS entrance is used to separate the spectral range into two parts, a division needed by the
different optical materials which have to be used in each spectral range. The optical layout of the experiment is very compact.
Each channel uses two cubic mirrors mounted on an L-structure pivoted on a motor. The motor moves the mechanics and permits
the optical-path difference between the arms to be varied. Each interformeter operates in a different spectral range, respectively,
between (1.25÷4.8) μm (8000÷2083cm−1) and (6÷45)μm (1666÷220)cm−1). The spectral resolution is 2 cm−1. The entrance aperture area is 30 cm2 per channel and the field of view is 2 and 4 degrees. Every measurement lasts about 4 s. The time and, therefore, the relative
optical-path difference for the measurement of every point of the interferogram is given by the zero crossings of the interferogram
of a reference monochromatic channel at 1.2 μm which uses a laser diode as source. The two interferograms are double-sided
and will have 16384 and 4096 points, respectively, corresponding to spectra of 6250 and 1823 useful points.
Paper presented at the 6th Cosmic Physics National Conference, Palermo, 3–7 November 1992. 相似文献