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91.
E. Kührt D. Möhlmann 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》1984,4(9):225-228
Spherically symmetric radial temperature profiles of cometary nuclei have been determined numerically (and for simplified models analytically) in dependence on the orbital position of the periodic comet Halley. These temperature fields in the nucleus are connected with thermal stress fields which have been calculated with the assumption of elastic properties of cometary matter. The remarkable result is the possible existence of stresses, strong enough to cause internal cracking of the nucleus and break-ups of the cometary surface. This may be essential understanding normal cometary activity as well as outbursts and splits. 相似文献
92.
A numerical solution of the Kepler problem. Requiring a six-decimal accuracy, the Kepler problem can be solved with four iterations at most, even for an eccentricity close to 1, provided that a new initial approximation be introduced in this last case. 相似文献
93.
Space Science Reviews - 相似文献
94.
We present the results of the spectral and timing analysis of an observation of GX9+1/4U1758-205 performed with the Medium Energy Experiment aboard EXOSAT. During our observation the source flux varied irregularly in time scales from minutes to hours. No periodic emission in the period range from 16 msec to 2000 sec was found with an upper limit of around 1% (3 ) for the pulsed fraction. The hardness ratio shows a correlated change with the flux intensity (Sco X-1 behaviour). The spectrum could be fitted by a double component model, a black body component (kT=1.16–1.26 keV) together with a thermal bremsstrahlung law (kT=13–15keV). The black-body temperature-black-body flux relation follows a Stefan Boltzmann law with RBB=15.3 km*D/10 kpc. No iron line was detected. The upper limit for the line equivalent width of a 6.7 keV iron emission line is 40 eV (1). The X-ray spectral behaviour of GX9+1 indicates, that this source belongs to the class of Low-Mass X-ray Binaries (LMXB). 相似文献
95.
Stüeken E. E. Som S. M. Claire M. Rugheimer S. Scherf M. Sproß L. Tosi N. Ueno Y. Lammer H. 《Space Science Reviews》2020,216(3):1-17
Space Science Reviews - The Ionospheric Connection Explorer (ICON) mission makes measurements in near-Earth space that provide knowledge of the state of the ionosphere. From the vantage of... 相似文献
96.
J. Semkova R. Koleva St. Maltchev N. Bankov V. Benghin I. Chernykh V. Shurshakov V. Petrov S. Drobyshev I. Nikolaev 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2012
The Liulin-5 experiment is a part of the international project MATROSHKA-R on the Russian segment of the ISS, which uses a tissue-equivalent spherical phantom equipped with a set of radiation detectors. The objective of the MATROSHKA-R project is to provide depth dose distribution of the radiation field inside the sphere in order to get more information on the distribution of dose in a human body. Liulin-5 is a charged particle telescope using three silicon detectors. It measures time resolved energy deposition spectra, linear energy transfer (LET) spectra, particle flux, and absorbed doses of electrons, protons and heavy ions, simultaneously at three depths along the radius of the phantom. Measurements during the minimum of the solar activity in cycle 23 show that the average absorbed daily doses at 40 mm depth in the phantom are between 180 μGy/day and 220 μGy/day. The absorbed doses at 165 mm depth in the phantom decrease by a factor of 1.6–1.8 compared to the doses at 40 mm depth due to the self-shielding of the phantom from trapped protons. The average dose equivalent at 40 mm depth is 590 ± 32 μSV/day and the galactic cosmic rays (GCR) contribute at least 70% of the total dose equivalent at that depth. Shown is that due to the South Atlantic Anomaly (SAA) trapped protons asymmetry and the direction of Liulin-5 lowest shielding zone the dose rates on ascending and descending nodes in SAA are different. The data obtained are compared to data from other radiation detectors on ISS. 相似文献
97.
Jürgen Blum 《Space Science Reviews》2018,214(2):52
After 25 years of laboratory research on protoplanetary dust agglomeration, a consistent picture of the various processes that involve colliding dust aggregates has emerged. Besides sticking, bouncing and fragmentation, other effects, like, e.g., erosion or mass transfer, have now been extensively studied. Coagulation simulations consistently show that \(\upmu\mbox{m}\)-sized dust grains can grow to mm- to cm-sized aggregates before they encounter the bouncing barrier, whereas sub-\(\upmu\mbox{m}\)-sized water-ice particles can directly grow to planetesimal sizes. For siliceous materials, other processes have to be responsible for turning the dust aggregates into planetesimals. In this article, these processes are discussed, the physical properties of the emerging dusty or icy planetesimals are presented and compared to empirical evidence from within and without the Solar System. In conclusion, the formation of planetesimals by a gravitational collapse of dust “pebbles” seems the most likely. 相似文献
98.
Karim Douch Hu Wu Christian Schubert Jürgen Müller Franck Pereira dos Santos 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(5):1307-1323
The prospects of future satellite gravimetry missions to sustain a continuous and improved observation of the gravitational field have stimulated studies of new concepts of space inertial sensors with potentially improved precision and stability. This is in particular the case for cold-atom interferometry (CAI) gradiometry which is the object of this paper. The performance of a specific CAI gradiometer design is studied here in terms of quality of the recovered gravity field through a closed-loop numerical simulation of the measurement and processing workflow. First we show that mapping the time-variable field on a monthly basis would require a noise level below . The mission scenarios are therefore focused on the static field, like GOCE. Second, the stringent requirement on the angular velocity of a one-arm gradiometer, which must not exceed ?rad/s, leads to two possible modes of operation of the CAI gradiometer: the nadir and the quasi-inertial mode. In the nadir mode, which corresponds to the usual Earth-pointing satellite attitude, only the gradient , along the cross-track direction, is measured. In the quasi-inertial mode, the satellite attitude is approximately constant in the inertial reference frame and the 3 diagonal gradients and are measured. Both modes are successively simulated for a 239?km altitude orbit and the error on the recovered gravity models eventually compared to GOCE solutions. We conclude that for the specific CAI gradiometer design assumed in this paper, only the quasi-inertial mode scenario would be able to significantly outperform GOCE results at the cost of technically challenging requirements on the orbit and attitude control. 相似文献
99.
Due to the outstanding brightness of Comet Hale-Bopp measurements of water production rates were possible over a wide range
of heliocentric distances (up to 5 AU). A variety of observing techniques have been used, including radio observations, IR-
and UV-measurements. The H2O-production of a comet is closely connected with the energy balance and the composition of its surface. By comparing measured
and calculated rates it is possible to derive properties of the nucleus. The results of this study demonstrate the importance
of seasonal effects and show that a low thermal conductivity enhances the water production rate. The observations can be matched
with a relatively low, lunar-like thermal conductivity. A lower size limit for the nucleus of Hale-Bopp is derived.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
100.
Sabiha Tunçel Güçtekin Selçuk Bilir Salih Karaali Olcay Plevne Serap Ak 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2019,63(3):1360-1373
We used the ugr magnitudes of 1437467 F-G type main-sequence stars with metal abundance dex and estimated radial and vertical metallicity gradients for high Galactic-latitude fields, and , of the Milky Way Galaxy. The radial metallicity gradient dex kpc?1 estimated for the stars with kpc is attributed to the thin-disc population. While, the radial gradients evaluated for stars at higher vertical distances are close to zero indicating that the thick disc and halo have not undergone a radial collapse phase at least at high Galactic latitudes. The vertical metallicity gradients estimated for stars with three different Galactic latitudes, and do not show a strong indication for Galactic latitude dependence of our gradients. The thin disc, kpc, with a vertical metallicity gradient dex kpc?1, is dominant only in galactocentric distance interval kpc, while the thick disc ( kpc) could be observed in the intervals and kpc with compatible vertical metallicity gradients, i.e. dex kpc?1 and dex kpc?1. Five vertical metallicity gradients are estimated for the halo ( kpc) in three galactocentric distance intervals, and kpc. The first one corresponding to the interval kpc is equal to dex kpc?1, while the others at larger galactocentric distances are close to zero. We derived synthetic vertical metallicity gradients for 2,230,167 stars and compared them with the observed ones. There is a good agreement between the two sets of vertical metallicity gradients for the thin disc, while they are different for the thick disc. For the halo, the conspicuous difference corresponds to the galactocentric distance interval kpc, while they are compatible at higher galactocentric distance intervals. 相似文献