8,012 research outputs found
Minimum-fuel thrust-limited transfer trajectories between coplanar elliptic orbits
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77145/1/AIAA-1969-914-685.pd
Crystallization of threonyl-tRNA synthetase from Thermus thermophilus and preliminary crystallographic data
AbstractThreonyl-tRNA synthetase from Thermus thermophilus (ttTRS) has been overproduced in Escherichia coli, purified and crystallized in solutions containing ammonium sulfate and glycerol. The crystals grew in the orthorhombic space group C2221 with unit cell dimensions a = 119.5 Å, b = 120.0 Å, c = 317.5 Å. The asymmetric unit is constituted of two monomers and the crystals contain 66% solvent. This paper reports the first crystals of ttTRS and preliminary crystallographic results since the presumed crystals of ttTRS described in a previous paper [1] were crystals of aspartyl-tRNA synthetase [2]
Integrated Atom Detector Based on Field Ionization near Carbon Nanotubes
We demonstrate an atom detector based on field ionization and subsequent ion
counting. We make use of field enhancement near tips of carbon nanotubes to
reach extreme electrostatic field values of up to 9x10^9 V/m, which ionize
ground state rubidium atoms. The detector is based on a carpet of multiwall
carbon nanotubes grown on a substrate and used for field ionization, and a
channel electron multiplier used for ion counting. We measure the field
enhancement at the tips of carbon nanotubes by field emission of electrons. We
demonstrate the operation of the field ionization detector by counting atoms
from a thermal beam of a rubidium dispenser source. By measuring the ionization
rate of rubidium as a function of the applied detector voltage we identify the
field ionization distance, which is below a few tens of nanometers in front of
nanotube tips. We deduce from the experimental data that field ionization of
rubidium near nanotube tips takes place on a time scale faster than 10^(-10)s.
This property is particularly interesting for the development of fast atom
detectors suitable for measuring correlations in ultracold quantum gases. We
also describe an application of the detector as partial pressure gauge.Comment: 7 pages, 8 figure
Normal-Metal Aharonov-Bohm Effect in the Presence of a Transverse Electric Field
The effects of transverse electric fields on the conductance fluctuations in an Sb loop have been studied. We show that the electric field can be used to tune the position (or phase) of Aharonov-Bohm oscillations as well as to alter the aperiodic conductance fluctuation patterns. We disucss two mechanisms which might cause the observed dependence of the fluctuation pattern on transverse electric field. The first is the electrostatic Aharonov-Bohm effect, and the second is the spatial shifting of the electron trajectories by the electric field
Functional Annotation and Comparative Analysis of a Zygopteran Transcriptome
In this paper we present a de novo assembly of the transcriptome of the damselfly (Enallagma hageni) through the use of 454 pyrosequencing. E. hageni is a member of the suborder Zygoptera, in the order Odonata, and Odonata organisms form the basal lineage of the winged insects (Pterygota). To date, sequence data used in phylogenetic analysis of Enallagma species have been derived from either mitochondrial DNA or ribosomal nuclear DNA. This Enallagma transcriptome contained 31,661 contigs that were assembled and translated into 14,813 individual open reading frames. Using these data, we constructed an extensive dataset of 634 orthologous nuclear protein-encoding genes across 11 species of Arthropoda and used Bayesian techniques to elucidate the position of Enallagma in the arthropod phylogenetic tree. Additionally, we demonstrated that the Enallagma transcriptome contains 169 genes that are evolving at rates that differ relative to those of the rest of the transcriptome (29 accelerated and 140 decreased), and, through multiple Gene Ontology searches and clustering methods, we present the first functional annotation of any palaeopteran\u27s transcriptome in the literature
Results from EDGES High-Band: II. Constraints on Parameters of Early Galaxies
We use the sky-average spectrum measured by EDGES High-Band ( MHz) to
constrain parameters of early galaxies independent of the absorption feature at
~MHz reported by Bowman et al. (2018). These parameters represent
traditional models of cosmic dawn and the epoch of reionization produced with
the 21cmFAST simulation code (Mesinger & Furlanetto 2007, Mesinger et al.
2011). The parameters considered are: (1) the UV ionizing efficiency (),
(2) minimum halo virial temperature hosting efficient star-forming galaxies
(), (3) integrated soft-band X-ray luminosity (), and (4) minimum X-ray energy escaping the first
galaxies (), corresponding to a typical H column
density for attenuation through the interstellar medium. The High-Band spectrum
disfavors high values of and , which correspond
to signals with late absorption troughs and sharp reionization transitions. It
also disfavors intermediate values of , which
produce relatively deep and narrow troughs within the band. Specifically, we
rule out
( C.L.). We then combine the EDGES High-Band data with constraints on the
electron scattering optical depth from Planck and the hydrogen neutral fraction
from high- quasars. This produces a lower degeneracy between and
than that reported in Greig & Mesinger (2017a) using
the Planck and quasar constraints alone. Our main result in this combined
analysis is the estimate ~~ ( C.L.). We leave for future work the evaluation of
~cm models using simultaneously data from EDGES Low- and High-Band.Comment: Accepted in Ap
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