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Exobiological implications of dust aggregation in planetary atmospheres: An experiment for the gas-grain simulation facility (1991)

Marshall, J. R. ; Huntington, J. L. ; Schwartz, D. E.

In: CASI

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Publication Date: 2013-08-31

Description: The Gas-Grain Simulation Facility (GGSF) will provide a microgravity environment where undesirable environmental effects are reduced, and thus, experiments involving interactions between small particles and grains can be more suitably performed. Slated for flight aboard the Shuttle in 1992, the ESA glovebox will serve as a scientific and technological testbed for GGSF exobiology experiments as well as generating some basic scientific data. Initial glovebox experiments will test a method of generating a stable, mono-dispersed cloud of fine particles using a vibrating sprinkler system. In the absence of gravity and atmospheric turbulence, it will be possible to determine the influence of interparticle forces in controlling the rate and mode of aggregation. The experimental chamber can be purged of suspended matter to enable multiple repetitions of the experiments. Of particular interest will be the number of particles per unit volume of the chamber, because it is suspected that aggregation will occur extremely rapidly if the number exceeds a critical value. All aggregation events will be recorded on high-resolution video film. Changes in the experimental procedure as a result of surprise events will be accompanied by real-time interaction with the mission specialist during the Shuttle flight.

Keywords: SPACE BIOLOGY

Type: NASA, Washington, Fourth Symposium on Chemical Evolution and the Origin and Evolution of Life; p 26

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Exobiology experiments for Earth-orbital platforms (1994)

Scattergood, T. W. ; Stratton, D. M. ; Marshall, J. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-04-02

Description: Low-gravity (microgravity) studies relevant to prebiotic evolution and the history of the biogenic elements (C, H, N, O, P, S) are particularly suited to orbital platforms. Relevant to these topics are phenomena such as gas-particle interactions (e.g., formation of organic aerosols via photolytic reactions) including nucleation, condensation, evaporation, adsorption, and catalytic reactions on surfaces; and, small-particle or grain interactions (e.g., growth of interstellar dust particles and planetesimals) including processes such as aggregation (or coagulation), scavenging, and collisions. Both gas-particle and grain (i.e., dust, crystals, organic aerosols, etc.) interactions studies can benefit from microgravity and are pertinent to studies in the areas of chemical evolution in the solar nebula, the interstellar medium, and planetary atmospheres; growth of planetesimals; and prebiotic evolution. In general, the microgravity environment allows for long duration and controlled simulations of processes occurring in exobiologically significant systems such as Titan's atmosphere, interstellar dust clouds, and the solar nebula in which gas-particle or particle-particle interactions play a significant role.

Keywords: SPACE BIOLOGY

Type: Origins of Life and Evolution of the Biosphere (ISSN 0169-6149); 24; 2-4; p. 328-329

Format: text

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Space Experiments with Particle Accelerators: SEPAC (1994)

Burch, J. L. ; Kawashima, N. ; Moses, S. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-04-02

Description: The Space Experiments with Particle Accelerators (SEPAC), which flew on the Atmospheric Laboratory for Applications and Science (ATLAS) 1 mission, used new techniques to study natural phenomena in the Earth's upper atmosphere, ionosphere and magnetosphere by introducing energetic perturbations into the system from a high power electron beam with known characteristics. Properties of auroras were studied by directing the electron beam into the upper atmosphere while making measurements of optical emissions. Studies were also performed of the critical ionization velocity phenomenon.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Advances in Space Research (ISSN 0273-1177); 14; 9; p. (9)263-(9)270

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Limb effects in satellite temperature sounding (1985)

Schreiner, A. J. ; Le Marshall, J. F.

In: Other Sources

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Publication Date: 2019-06-28

Description: To date, operational satellite temperature retrievals from the TIROS-N/NOAA A-G series of satellites and a large percentage of those produced for research purposes have used statistical techniques to estimate limb effects in satellite-observed radiances. In this study, temperature profiles were derived using the radiative transfer equation in a form which properly takes into account the angle of observation. These temperature profiles were then compared to those derived using the radiative transfer equation with 'nadir radiances' produced by a statistical limb correction technique similar to those now used operationally. This comparison revealed significant differences in the derived temperature profiles at large viewing angles, particularly in the case of strong meridional temperature gradients. Overall, the results suggest that for the calculation of temperature profiles from nonnadir observations, the more proper physical solution is the preferred procedure for deriving temperature fields.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Climate and Applied Meteorology (ISSN 0733-3021); 24; 287-290

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Hurricane Debby - An illustration of the complementary nature of VAS soundings and cloud and water vapor motion winds (1985)

Callan, G. M. ; Smith, W. L. ; Le Marshall, J. F.

In: Other Sources

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Publication Date: 2019-06-28

Description: The utility of VISSR Atmospheric Sounder (VAS) temperature and moisture soundings and cloud and water vapor motion winds in defining a storm and its surroundings at subsynoptic scales has been examined using a numerical analysis and prognosis system. It is shown that the VAS temperature and moisture data, which specify temperature and moisture well in cloud-free areas, are complemented by cloud and water vapor motion data generated in the cloudy areas. The cloud and water vapor 'winds' provide thermal gradient information for interpolating the soundings across cloudy regions. The loss of analysis integrity due to the reduction of VAS sounding density in the cloudy regions associated with synoptic activity is ameliorated by using cloud and water vapor motion winds. The improvement in numerical forecasts resulting from the addition of these data to the numerical analysis is recorded.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: American Meteorological Society, Bulletin (ISSN 0003-0007); 66; 258-263

Format: text

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Hurricane Debby - Analysis and numerical forecasts using VAS soundings (1984)

Le Marshall, J. F. ; Callan, G. M. ; Smith, W. L.

In: Other Sources

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Publication Date: 2019-06-28

Description: The utility of VISSR Atmospheric Sounder (VAS) temperature and moisture soundings in defining the storm and its surroundings at subsynoptic scales has been examined using a numerical analysis and prognosis system. In particular, VAS temperature and moisture soundings and cloud and water vapor motion winds have been used in numerical analysis for three time periods. It is shown that the VAS temperature and moisture data which specify temperature and moisture well in cloud free regions are complemented by cloud and water vapor wind data which provide horizontal gradient information for the cloudy areas. The loss of analysis integrity due to the reduction of VAS data density in the cloudy regions associated with synoptic activity is ameliorated by using cloud and water vapor motion winds. The improvement in numerical forecasts resulting from the addition of these data to the numerical data base is also recorded.

Keywords: METEOROLOGY AND CLIMATOLOGY

Format: text

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Exobiology on Mars (1990)

Andersen, D. ; Devincenzi, D. L. ; Marshall, J. R.

In: CASI

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Publication Date: 2019-07-13

Description: Descriptions of several instrument concepts that were generated during a workshop entitled, Exobiology Instrument Concepts for a Soviet Mars 94/94 Mission, held at NASA Ames Research Center in 1989 are presented. The objective was to define and describe instrument concepts for exobiology and related science that would be compatible with the mission types under discussion for the 1994 and 1996 Soviet Mars missions. Experiments that use existing technology were emphasized. The concepts discussed could also be used on U.S. missions that follow Mars Observer.

Keywords: SPACE BIOLOGY

Type: NASA-CP-10055 , A-90320 , NAS 1.55:10055 , Feb 27, 1989 - Feb 28, 1989; Moffett Field, CA; United States

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