1,185 research outputs found
An airborne system for detection of volcanic surface deformations
A technique is proposed for measuring volcanic deformation on the order of centimeters per day to centimeters per year. An airborne multifrequency pulsed radar, tracking passive ground reflectors spaced at 1 kilometer intervals over a 50 square kilometer area is employed. Identification of targets is accomplished by Doppler and range resolution techniques, with final relative position measurements accomplished by phase comparison of multifrequency signals. Atmospheric path length errors are corrected by an airborne refractometer, meteorological instruments, or other refractive index measuring devices. Anticipated system accuracy is 1-2 cm, with measuring times on the order of minutes. Potential problems exist in the high intrinsic data assimilation rate required of the system to overcome ground backscatter noise
Solar nebula condensates and the composition of comets
Interpretation of the volatile abundances in Halley's comet in terms of models for chemical and physical processes in the solar nebula are discussed. Key ratios of the oxidized and reduced species of nitrogen and carbon are identified which tell something of the chemical history of the environment in which cometary grains accreted to form the nucleus. Isotopic abundances are also applied to this problem. It will be shown that the abundances of methane and carbon monoxide are consistent both with models of solar nebula chemistry and chemical processing on grains in star-forming regions. Ultimately, limitations of the current data set on molecular abundances in comets and star-forming regions prevent a definitive choice between the two. Processes important to the composition of outer solar system bodies are: (1) gas phase chemistry in the solar nebula; (2) imperfect mixing in the solar nebula; (3) condensation; (4) clathration; (5) adsorption; and (6) processing of interstellar material
Theoretical studies of volatile processes in the outer solar system
Four studies of volatile processes in the outer solar system are discussed. Researchers suggest that the convective and conductive regions of Triton's atmosphere join at the tropopause near 10 km. A model of volatile transport on Triton's surface was constructed that predicts that Triton's surface north of 15 degrees north latitude is experiencing deposition of nitrogen frosts, as are the bright portions of the south polar cap near the equator. Also discussed are numerical models of the evolution of Titan's surface and atmosphere. Results of a study of the rheology of ammonia-water liquids were applied to the icy satellites of the outer solar system. Finally, the researchers examined the frictional heating, sublimation, and re-condensation of grains free-falling into the solar nebula from a surrounding interstellar cloud. The sublimation model includes the effect of various volatile species and accounts for the poor radiating properties of small grains using Mie theory
Guidance for conference rapporteurs
Guidance is provided for rapporteurs at the National Conference on Strategic Management of Research and Development (Arlington, Va., 14-16 June 1988)
High-resolution simulations of the final assembly of Earth-like planets 2: water delivery and planetary habitability
The water content and habitability of terrestrial planets are determined
during their final assembly, from perhaps a hundred 1000-km "planetary embryos"
and a swarm of billions of 1-10 km "planetesimals." During this process, we
assume that water-rich material is accreted by terrestrial planets via impacts
of water-rich bodies that originate in the outer asteroid region. We present
analysis of water delivery and planetary habitability in five high-resolution
simulations containing about ten times more particles than in previous
simulations (Raymond et al 2006a, Icarus, 183, 265-282). These simulations
formed 15 terrestrial planets from 0.4 to 2.6 Earth masses, including five
planets in the habitable zone. Every planet from each simulation accreted at
least the Earth's current water budget; most accreted several times that amount
(assuming no impact depletion). Each planet accreted at least five water-rich
embryos and planetesimals from past 2.5 AU; most accreted 10-20 water-rich
bodies.
We present a new model for water delivery to terrestrial planets in
dynamically calm systems, with low-eccentricity or low-mass giant planets --
such systems may be very common in the Galaxy. We suggest that water is
accreted in comparable amounts from a few planetary embryos in a "hit or miss"
way and from millions of planetesimals in a statistically robust process.
Variations in water content are likely to be caused by fluctuations in the
number of water-rich embryos accreted, as well as from systematic effects such
as planetary mass and location, and giant planet properties.Comment: Astrobiology, in pres
Non-solar noble gas abundances in the atmosphere of Jupiter
The thermodynamic stability of clathrate hydrate is calculated to predict the formation conditions corresponding to a range of solar system parameters. The calculations were performed using the statistical mechanical theory developed by van der Waals and Platteeuw (1959) and existing experimental data concerning clathrate hydrate and its components. Dissociation pressures and partition functions (Langmuir constants) are predicted at low pressure for CO clathrate (hydrate) using the properties of chemicals similar to CO. It is argued that nonsolar but well constrained noble gas abundances may be measurable by the Galileo spacecraft in the Jovian atmosphere if the observed carbon enhancement is due to bombardment of the atmosphere by clathrate-bearing planetesimals sometime after planetary formation. The noble gas abundances of the Jovian satellite Titan are predicted, assuming that most of the methane in Titan is accreted as clathrate. It is suggested that under thermodynamically appropriate conditions, complete clathration of water ice could have occurred in high-pressure nebulas around giant planets, but probably not in the outer solar nebula. The stability of clathrate in other pressure ranges is also discussed
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