72 research outputs found
Future Venus Probe Missions
Probes are essential to understanding Venus Direct implications for Earth's formation and history, origin of life, extra solar planets Range of desired capability includes: a) Multiprobes; b) Descenders; c) Landers; d) Balloons; and e) Long-lived landers
Atmospheric Composition, Chemistry, and Clouds
Venus’ atmosphere has a rich chemistry involving interactions among sulfur,
chlorine, nitrogen, hydrogen, and oxygen radicals. The chemical regimes in the
atmosphere range from ion-neutral reactions in the ionosphere to photochemistry
in the middle atmosphere to thermal equilibrium chemistry and surface-atmosphere
reactions in the lower atmosphere. This variety makes Venus an important planet
to understand within the context of terrestrial-like planets, both in our own solar
system and outside it. The primary chemical cycles are believed known but surprisingly
few details about these cycles have been fully verified by concurrence
among observations, experiments, and modeling. Good models have been developed
that account for many properties of the cloud layers, but the size distribution,
shape, and composition of the majority of the aerosol mass are still open issues.
This chapter reviews the state of knowledge prior to the Venus Express mission
for the composition, chemistry, and clouds of the neutral atmosphere on Venus.
Observations by instruments on Venus Express, in combination with ground-based
observations, laboratory experiments, and numerical modeling, should answer some
of the major open questions regarding the composition, chemistry, and clouds of
Venus’ atmosphere
Meter-Sized Moonlet Population in Saturn\u27s C Ring and Cassini Division
Stellar occultations observed by the Cassini Ultraviolet Imaging Spectrograph reveal the presence of transparent holes a few meters to a few tens of meters in radial extent in otherwise optically thick regions of the C ring and the Cassini Division. We attribute the holes to gravitational disturbances generated by a population of similar to 10 m boulders in the rings that is intermediate in size between the background ring particle size distribution and the previously observed similar to 100 m propeller moonlets in the A ring. The size distribution of these boulders is described by a shallower power-law than the one that describes the ring particle size distribution. The number and size distribution of these boulders could be explained by limited accretion processes deep within Saturn\u27s Roche zone
Infrared Observations During the Secondary Eclipse of HD 209458b: I. 3.6-Micron Occultation Spectroscopy Using the VLT
We search for an infrared signature of the transiting extrasolar planet HD
209458b during secondary eclipse. Our method, which we call `occultation
spectroscopy,' searches for the disappearance and reappearance of weak spectral
features due to the exoplanet as it passes behind the star and later reappears.
We argue that at the longest infrared wavelengths, this technique becomes
preferable to conventional `transit spectroscopy'. We observed the system in
the wing of the strong nu-3 band of methane near 3.6 microns during two
secondary eclipses, using the VLT/ISAAC spectrometer at a spectral resolution
of 3300. Our analysis, which utilizes a model template spectrum, achieves
sufficient precision to expect detection of the spectral structure predicted by
an irradiated, low-opacity (cloudless), low-albedo, thermochemical equilibrium
model for the exoplanet atmosphere. However, our observations show no evidence
for the presence of this spectrum from the exoplanet, with the statistical
significance of the non-detection depending on the timing of the secondary
eclipse, which depends on the assumed value for the orbital eccentricity. Our
results reject certain specific models of the atmosphere of HD 209458b as
inconsistent with our observations at the 3-sigma level, given assumptions
about the stellar and planetary parameters.Comment: 26 pages, 8 figures Accepted to Astrophysical Journa
The 1990 update to strategy for exploration of the inner planets
The Committee on Planetary and Lunar Exploration (COMPLEX) has undertaken to review and revise the 1978 report Strategy for Exploration of the Inner Planets, 1977-1987. The committee has found the 1978 report to be generally still pertinent. COMPLEX therefore issues its new report in the form of an update. The committee reaffirms the basic objectives for exploration of the planets: to determine the present state of the planets and their satellites, to understand the processes active now and at the origin of the solar system, and to understand planetary evolution, including appearance of life and its relation to the chemical history of the solar system
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