7,061 research outputs found
The NASA low thrust propulsion program
The NASA OAST Propulsion, Power, and Energy Division supports a low thrust propulsion program aimed at providing high performance options for a broad range of near-term and far-term mission and vehicles. Low thrust propulsion has a major impact on the mission performance of essentially all spacecraft and vehicles. On-orbit lifetimes, payloads, and trip times are significantly impacted by low thrust propulsion performance and integration features for Earth-to-orbit (ETO) vehicles, Earth-orbit and planetary spacecraft, and large platforms in Earth orbit. Major emphases are on low thrust chemical propulsion, both storables and hydrogen/oxygen; low-power (auxiliary) electric arcjects and resistojets; and high-power (primary) electric propulsion, including ion, magnetoplasmadynamic (MPD), and electrodeless concepts. The major recent accomplishments of the program are presented and their impacts discussed
The fabrication and testing of thick gold Fresnel zone plates for high energy x-ray and charged particle imaging
Thick, free-standing, gold Fresnel zone plates were fabricated and tested for use as coded apertures for imaging 100 keV x-rays and 6 MeV and 10 MeV protons. Reactive Ion Etching and gold microplating techniques were extended to thick structures, to fabricate gold zone plates 75 um thick, with 30 um minimum zone width. Techniques were developed for using high efficiency, high resolution nuclear track detectors to record protons and produce suitable contrast shadowgraphs from the etched nuclear track detectors. The point response function of the zone plate shadow camera was experimentally measured using 100 keV x-rays and 6 MeV and 10 MeV protons. The zone plate camera exhibited diffraction limited results, with higher order resolution of 4 um for 100 keV x-rays, and 9 um for 6 MeV protons
Termination Shock Asymmetries as Seen by the Voyager Spacecraft: The Role of the Interstellar Magnetic Field and Neutral Hydrogen
We show that asymmetries of the termination shock due to the influence of the interstellar magnetic field (ISMF) are considerably smaller in the presence of neutral hydrogen atoms, which tend to symmetrize the heliopause, the termination shock, and the bow shock due to charge exchange with charged particles. This leads to a much stronger restriction on the ISMF direction and its strength. We demonstrate that in the presence of the interplanetary magnetic field the plane defined by the local interstellar medium (LISM) velocity and magnetic field vectors does not exactly coincide with the plane defined by the interstellar neutral helium and hydrogen velocity vectors in the supersonic solar wind region, which limits the accuracy of the inferred direction of the ISMF. We take into account the tilt of the LISM velocity vector with respect to the ecliptic plane and show that magnetic fields as strong as 3 μG or greater may be necessary to account for the observed asymmetry. Estimates are made of the longitudinal streaming anisotropy of energetic charged particles at the termination shock caused by the nonalignment of the interplanetary magnetic field with its surface. By investigating the behavior of interplanetary magnetic field lines that cross the Voyager 1 trajectory in the inner heliosheath, we estimate the length of the trajectory segment that is directly connected by these lines to the termination shock. A possible effect of the ISMF draping over the heliopause is discussed in connection with radio emission generated in the outer heliosheath
Limited irrigation cropping systems for conserving water resources in the Pumpkin Creek Watershed
Presented at the 2008 Central Plains irrigation conference on February 19-20 in Greeley, Colorado.Includes bibliographical references
Inflation expectations surveys as predictors of inflation and behavior in financial and labor markets
Inflation (Finance) ; Forecasting ; Interest rates
Integrated Modeling Environment
The Integrated Modeling Environment (IME) is a software system that establishes a centralized Web-based interface for integrating people (who may be geographically dispersed), processes, and data involved in a common engineering project. The IME includes software tools for life-cycle management, configuration management, visualization, and collaboration
The Ancestral Eutherian Karyotype Is Present in Xenarthra
Molecular studies have led recently to the proposal of a new super-ordinal arrangement of the 18 extant Eutherian orders. From the four proposed super-orders, Afrotheria and Xenarthra were considered the most basal. Chromosome-painting studies with human probes in these two mammalian groups are thus key in the quest to establish the ancestral Eutherian karyotype. Although a reasonable amount of chromosome-painting data with human probes have already been obtained for Afrotheria, no Xenarthra species has been thoroughly analyzed with this approach. We hybridized human chromosome probes to metaphases of species (Dasypus novemcinctus, Tamandua tetradactyla, and Choloepus hoffmanii) representing three of the four Xenarthra families. Our data allowed us to review the current hypotheses for the ancestral Eutherian karyotype, which range from 2n = 44 to 2n = 48. One of the species studied, the two-toed sloth C. hoffmanii (2n = 50), showed a chromosome complement strikingly similar to the proposed 2n = 48 ancestral Eutherian karyotype, strongly reinforcing it
Phylogenomics of species from four genera of New World monkeys by flow sorting and reciprocal chromosome painting
Background: The taxonomic and phylogenetic relationships of New World monkeys (Platyrrhini) are difficult to
distinguish on the basis of morphology and because diagnostic fossils are rare. Recently, molecular data have led to a
radical revision of the traditional taxonomy and phylogeny of these primates. Here we examine new hypotheses of
platyrrhine evolutionary relationships by reciprocal chromosome painting after chromosome flow sorting of species
belonging to four genera of platyrrhines included in the Cebidae family: Callithrix argentata (silvered-marmoset), Cebuella
pygmaea (pygmy marmoset), Callimico goeldii (Goeldi's marmoset) and Saimiri sciureus (squirrel monkey). This is the first
report of reciprocal painting in marmosets.
Results: The paints made from chromosome flow sorting of the four platyrrhine monkeys provided from 42 to 45
hybridization signals on human metaphases. The reciprocal painting of monkey probes on human chromosomes revealed
that 21 breakpoints are common to all four studied species. There are only three additional breakpoints. A breakpoint
on human chromosome 13 was found in Callithrix argentata, Cebuella pygmaea and Callimico goeldii, but not in Saimiri
sciureus. There are two additional breakpoints on human chromosome 5: one is specific to squirrel monkeys, and the
other to Goeldi's marmoset.
Conclusion: The reciprocal painting results support the molecular genomic assemblage of Cebidae. We demonstrated
that the five chromosome associations previously hypothesized to phylogenetically link tamarins and marmosets are
homologous and represent derived chromosome rearrangements. Four of these derived homologous associations tightly
nest Callimico goeldii with marmosets. One derived association 2/15 may place squirrel monkeys within the Cebidae
assemblage. An apparently common breakpoint on chromosome 5q33 found in both Saimiri and Aotus nancymae could be
evidence of a phylogenetic link between these species. Comparison with previous reports shows that many syntenic
associations found in platyrrhines have the same breakpoints and are homologous, derived rearrangements showing that
the New World monkeys are a closely related group of species. Our data support the hypothesis that the ancestral
karyotype of the Platyrrhini has a diploid number of 2n = 54 and is almost identical to that found today in capuchin
monkeys; congruent with a basal position of the Cebidae among platyrrhine families
Reported Animal Rabies in Arkansas: 1982-1990
Reported animal rabies in Arkansas is reviewed for the years 1982-1990; providing an update from 1950-1981 (Heidt, 1982). Total cases ranged from 39 in 1990 to 168 in 1986, with a mean of 123.1. Wildlife accounted for 93.4% of the total cases. A total of 16 kinds of mammals has been implicated in reported rabies (individual species of foxes and skunks have been combined). The four taxa accounting for the highest incidence are: skunks (82.6%); bats (10.1%, all seven species combined); cattle (2.8%); and dogs (1.5%). Skunks, the most prominent species, ranged from 71.8% in 1990 to 90.2% in 1987. These figures were similar to the previous ten years, with the exception of 1977-1979 when Arkansas experienced a severe skunk rabies epizootic
Survival of Dopaminergic Amacrine Cells after Near-Infrared Light Treatment in MPTP-Treated Mice
We examined whether near-infrared light (NIr) treatment (photobiomodulation) saves dopaminergic amacrine cells of the retina in an acute and a chronic 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) mouse model of Parkinson disease. For the acute model, BALB/c mice had MPTP (100 mg/kg) or saline injections over 30 hours, followed by a six-day-survival period. For the chronic model, mice had MPTP (200 mg/kg) or saline injections over five weeks, followed by a three-week-survival period. NIr treatment was applied either at the same time (simultaneous series) or well after (posttreatment series) the MPTP insult. There were four groups within each series: Saline, Saline-NIr, MPTP, and MPTP-NIr. Retinae were processed for tyrosine hydroxylase (TH) immunochemistry, and cell number was analysed. In the MPTP groups, there was a significant reduction in TH+ cell number compared to the saline controls; this reduction was greater in the acute (~50%) compared to the chronic (~30%) cases. In the MPTP-NIr groups, there were significantly more TH+ cells than in the MPTP groups of both series (~30%). In summary, we showed that NIr treatment was able to both protect (simultaneous series) and rescue (posttreatment series) TH+ cells of the retina from parkinsonian insult
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