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21.
M.K. Sharma Monika Sharma U.P. Verma Suresh Chandra 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2014
Though H2CO, H2CS, H2CCC, H2CCCC, H2CCO have been identified in cool interstellar molecular clouds, identification of H2CC is still awaited. To analyze its spectrum, collisional rate coefficients are required. We have calculated collisional rate coefficients for rotational transitions between 23 levels of ortho and para H2CC for kinetic temperatures 10, 20, 30, 40, and 50 K. The scattering problem is analyzed using the computer code MOLSCAT where the colliding partner is He atom. The interaction between H2CC and He has been calculated with GAUSSIAN 2003. For the interaction potential obtained with GAUSSIAN 2003, MOLSCAT is used to derive the parameters q(L,M,M′|E) as a function of energy E of the colliding partner. After averaging the parameters q(L,M,M′|E) over a Maxwellian distribution, the parameters Q(L,M,M′|T) as a function of the kinetic temperature T in the cloud are obtained. Finally, the collisional rate coefficients have been calculated. 相似文献
22.
Doris Breuer Steven A. Hauck II Monika Buske Martin Pauer Tilman Spohn 《Space Science Reviews》2007,132(2-4):229-260
The interior evolution of Mercury—the innermost planet in the solar system, with its exceptional high density—is poorly known.
Our current knowledge of Mercury is based on observations from Mariner 10’s three flybys. That knowledge includes the important
discoveries of a weak, active magnetic field and a system of lobate scarps that suggests limited radial contraction of the
planet during the last 4 billion years. We review existing models of Mercury’s interior evolution and further present new
2D and 3D convection models that consider both a strongly temperature-dependent viscosity and core cooling. These studies
provide a framework for understanding the basic characteristics of the planet’s internal evolution as well as the role of
the amount and distribution of radiogenic heat production, mantle viscosity, and sulfur content of the core have had on the
history of Mercury’s interior.
The existence of a dynamo-generated magnetic field suggests a growing inner core, as model calculations show that a thermally
driven dynamo for Mercury is unlikely. Thermal evolution models suggest a range of possible upper limits for the sulfur content
in the core. For large sulfur contents the model cores would be entirely fluid. The observation of limited planetary contraction
(∼1–2 km)—if confirmed by future missions—may provide a lower limit for the core sulfur content. For smaller sulfur contents,
the planetary contraction obtained after the end of the heavy bombardment due to inner core growth is larger than the observed
value. Due to the present poor knowledge of various parameters, for example, the mantle rheology, the thermal conductivity
of mantle and crust, and the amount and distribution of radiogenic heat production, it is not possible to constrain the core
sulfur content nor the present state of the mantle. Therefore, it is difficult to robustly predict whether or not the mantle
is conductive or in the convective regime. For instance, in the case of very inefficient planetary cooling—for example, as
a consequence of a strong thermal insulation by a low conductivity crust and a stiff Newtonian mantle rheology—the predicted
sulfur content can be as low as 1 wt% to match current estimates of planetary contraction, making deep mantle convection likely.
Efficient cooling—for example, caused by the growth of a crust strongly in enriched in radiogenic elements—requires more than
6.5 wt% S. These latter models also predict a transition from a convective to a conductive mantle during the planet’s history.
Data from future missions to Mercury will aid considerably our understanding of the evolution of its interior. 相似文献
23.
John O. Goldsten Edgar A. Rhodes William V. Boynton William C. Feldman David J. Lawrence Jacob I. Trombka David M. Smith Larry G. Evans Jack White Norman W. Madden Peter C. Berg Graham A. Murphy Reid S. Gurnee Kim Strohbehn Bruce D. Williams Edward D. Schaefer Christopher A. Monaco Christopher P. Cork J. Del Eckels Wayne O. Miller Morgan T. Burks Lisle B. Hagler Steve J. DeTeresa Monika C. Witte 《Space Science Reviews》2007,131(1-4):339-391
A Gamma-Ray and Neutron Spectrometer (GRNS) instrument has been developed as part of the science payload for NASA’s Discovery
Program mission to the planet Mercury. Mercury Surface, Space ENvironment, GEochemistry, and Ranging (MESSENGER) launched
successfully in 2004 and will journey more than six years before entering Mercury orbit to begin a one-year investigation.
The GRNS instrument forms part of the geochemistry investigation and will yield maps of the elemental composition of the planet
surface. Major elements include H, O, Na, Mg, Si, Ca, Ti, Fe, K, and Th. The Gamma-Ray Spectrometer (GRS) portion detects
gamma-ray emissions in the 0.1- to 10-MeV energy range and achieves an energy resolution of 3.5 keV full-width at half-maximum
for 60Co (1332 keV). It is the first interplanetary use of a mechanically cooled Ge detector. Special construction techniques provide
the necessary thermal isolation to maintain the sensor’s encapsulated detector at cryogenic temperatures (90 K) despite the
intense thermal environment. Given the mission constraints, the GRS sensor is necessarily body-mounted to the spacecraft,
but the outer housing is equipped with an anticoincidence shield to reduce the background from charged particles. The Neutron
Spectrometer (NS) sensor consists of a sandwich of three scintillation detectors working in concert to measure the flux of
ejected neutrons in three energy ranges from thermal to ∼7 MeV. The NS is particularly sensitive to H content and will help
resolve the composition of Mercury’s polar deposits. This paper provides an overview of the Gamma-Ray and Neutron Spectrometer
and describes its science and measurement objectives, the design and operation of the instrument, the ground calibration effort,
and a look at some early in-flight data. 相似文献
24.
Srikanta Sinha 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2006,38(12):3005-3007
A detailed Monte-Carlo code has been developed from basic principles that simulates the responses of high energy photon detectors to incident beams of photons. The detector response matrice (DRM)s are calculated using this code. Deconvolution of an artificially generated spectrum is presented. 相似文献
25.
Monika Sinha Mira Dey Subharthi Ray Jishnu Dey 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2006,38(12):2915-2916
We suggest that superbursts from some low mass X-ray binaries may be due to breaking and re-formation of diquark pairs, on the surface of realistic strange stars. Diquarks are expected to break up due to the explosion and shock of the thermonuclear process. After a prolonged accretion when almost all pairs get broken, the subsequent production of copious diquarks may produce sufficient energy to produce the superbursts. 相似文献
26.
Sinha A. Kirubarajan T. Bar-Shalom Y. 《IEEE transactions on aerospace and electronic systems》2007,43(3):1107-1108
Explicit expressions are derived for the bias and the variance of the maximum likelihood (ML) estimator of the Gumbel distribution. 相似文献
27.
28.
A.Z. Bochev A.K. Sinha 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
We show examples of long period Pc5 magnetic field pulsations near field-aligned current (FAC) regions in the high-latitude magnetosphere, observed by INTERBALL-Au, and coordinated with POLAR, GOES-9 and ground-based observations during 11 January and 11 April 1997. Identification of corresponding magnetosphere regions and subregions is provided by electrons and protons in the energy-range of 0.01–100 keV measured onboard the spacecraft. The ULF Pc5 wave occurrence is observed in both upward and downward FACs. A fairly good correlation is demonstrated between these ULF Pc5 waves and the consecutive injection of magnetosheath low energy protons. The constancy of the observed frequency peak at 1.8 mHz during quite unsteady solar wind pressure conditions could be reconciled with the surface wave mode model. The 3.1 mHz peak location area probably resembles field-line fluctuations with an interesting appearance of poloidal mode oscillation. It is suggested that the 1.3 mHz wave and its harmonic 2.6 mHz represent global compressional oscillations. 相似文献
29.
Manoranjan Sinha N.S. Gopinath N.K. Malik 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
This paper summarizes and provides a critical analysis of the historical developments of lunar gravitational models from the earliest use of ground based tracking systems of the Lunar Orbiter to the Lunar Prospector mission. This encompasses a comprehensive and critical analysis of the various methods used in the estimation of the gravity coefficients and the processing of large batches of diverse measurements and data types. It has been shown that weakness exists in the current models of the lunar gravity field, which is primarily due to the lack of far side lunar tracking data information, which makes the lunar potential modeling difficult but expected to be overcome as data from SELENE satellite-to-satellite tracking becomes available. Comparisons of various lunar models reveal an agreement in the low order coefficients of the spherical harmonics. However, substantial differences in the models exist in the higher-order harmonics. A numerical comparison has been presented showing the performance of all the contemporary lunar gravitational models used within the astrodynamics community and available in public domain. Improvements to the current models are part of a continuing process and the recent model improvements and future possibilities in lunar gravity modeling are discussed. A brief review of the recent missions has been presented. It is hoped that this critical review will benefit the researchers by presenting the historical as well as state of the art in this field. 相似文献
30.
This paper presents a simple approach to the derivation of sensitivity measures of smoothing algorithms. It is proposed that the known sensitivity results of the Kalman filtering algorithm be utilized along with the state augmentation approach for this purpose. The sensitivity measures so obtained are easier to compute than the ones available in the literature. It is then shown that the fixed-point smoothing algorithm, derived recently by Biswas and Mahalanabis [1], [2], is less sensitive to model parameter variations than the algorithm studied by Griffin and Sage [7], [8]. The case of a satellite tracking problem is presented by way of illustrating the results. 相似文献