3,810 research outputs found
A summary of NASA data relative to external-store separation characteristics
Aerodynamic characteristics of external stores in carriage position and their effect on separation characteristics under various delivery condition
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Evaluating water resource management in transboundary river basins using cooperative game theory: The Rio Grande/Bravo basin
Center for Research in Water Resource
Magnetic Reconnection with Radiative Cooling. I. Optically-Thin Regime
Magnetic reconnection, a fundamental plasma process associated with a rapid
dissipation of magnetic energy, is believed to power many disruptive phenomena
in laboratory plasma devices, the Earth magnetosphere, and the solar corona.
Traditional reconnection research, geared towards these rather tenuous
environments, has justifiably ignored the effects of radiation on the
reconnection process. However, in many reconnecting systems in high-energy
astrophysics (e.g., accretion-disk coronae, relativistic jets, magnetar flares)
and, potentially, in powerful laser plasma and z-pinch experiments, the energy
density is so high that radiation, in particular radiative cooling, may start
to play an important role. This observation motivates the development of a
theory of high-energy-density radiative magnetic reconnection. As a first step
towards this goal, we present in this paper a simple Sweet--Parker-like theory
of non-relativistic resistive-MHD reconnection with strong radiative cooling.
First, we show how, in the absence of a guide magnetic field, intense cooling
leads to a strong compression of the plasma in the reconnection layer,
resulting in a higher reconnection rate. The compression ratio and the layer
temperature are determined by the balance between ohmic heating and radiative
cooling. The lower temperature in the radiatively-cooled layer leads to a
higher Spitzer resistivity and hence to an extra enhancement of the
reconnection rate. We then apply our general theory to several specific
astrophysically important radiative processes (bremsstrahlung, cyclotron, and
inverse-Compton) in the optically thin regime, for both the zero- and
strong-guide-field cases. We derive specific expressions for key reconnection
parameters, including the reconnection rate. We also discuss the limitations
and conditions for applicability of our theory.Comment: 31 pages, 1 figur
Deep space payload launches via the Space Transportation System
The launching of deep space payloads via the Space Shuttle vehicle of the Space Transportation System, rather than via expendable launch vehicles, is described. Changes in procedures and data flow configurations for both the flight project and DSN during the launch period are required. A typical Galileo launch period sequence of events and telemetry and command data flow configurations are described
Inferring hidden Markov models from noisy time sequences: a method to alleviate degeneracy in molecular dynamics
We present a new method for inferring hidden Markov models from noisy time
sequences without the necessity of assuming a model architecture, thus allowing
for the detection of degenerate states. This is based on the statistical
prediction techniques developed by Crutchfield et al., and generates so called
causal state models, equivalent to hidden Markov models. This method is
applicable to any continuous data which clusters around discrete values and
exhibits multiple transitions between these values such as tethered particle
motion data or Fluorescence Resonance Energy Transfer (FRET) spectra. The
algorithms developed have been shown to perform well on simulated data,
demonstrating the ability to recover the model used to generate the data under
high noise, sparse data conditions and the ability to infer the existence of
degenerate states. They have also been applied to new experimental FRET data of
Holliday Junction dynamics, extracting the expected two state model and
providing values for the transition rates in good agreement with previous
results and with results obtained using existing maximum likelihood based
methods.Comment: 19 pages, 9 figure
Design, analysis and test verification of advanced encapsulation systems, phase 2 program results
Optical, electrical isolation, thermal structural, structural deflection, and thermal tests are reported. The utility of the optical, series capacitance, and structural deflection models was verified
Transcriptomes of parents identify parenting strategies and sexual conflict in a subsocial beetle
This work was funded by UK NERC grants to M.G.R. and A.J.M. an NERC studentship to D.J.P. the University of Georgia and a US NSF grant to A.J.M. and M.G.R.Parenting in the burying beetle Nicrophorus vespilloides is complex and, unusually, the sex and number of parents that can be present is flexible. Such flexibility is expected to involve specialized behaviour by the two sexes under biparental conditions. Here, we show that offspring fare equally well regardless of the sex or number of parents present. Comparing transcriptomes, we find a largely overlapping set of differentially expressed genes in both uniparental and biparental females and in uniparental males including vitellogenin, associated with reproduction, and takeout, influencing sex-specific mating and feeding behaviour. Gene expression in biparental males is similar to that in non-caring states. Thus, being ‘biparental’ in N. vespilloides describes the family social organization rather than the number of directly parenting individuals. There was no specialization; instead, in biparental families, direct male parental care appears to be limited with female behaviour unchanged. This should lead to strong sexual conflict.Publisher PDFPeer reviewe
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