264 research outputs found
Thermal analysis of cathode and anode regimes of an MPD arc Summary report, Jun. 1965 - Jan. 1967
Thermal analysis of anode and cathode heat transfer in magnetohydrodynamic electric arc
Thermal analysis of anode and cathode regimes in an electric arc column quarterly progress report no. 9, jul. 1 - sep. 30, 1965
Heat transfer phenomena in electric arcs - design and testing of arc tunnel modificatio
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Pathotype-specific QTL for stem rust resistance in Lolium perenne
A genetic map populated with RAD and SSR markers was created from F1 progeny of a stem rust-susceptible and stem rust-resistant parent of perennial ryegrass (Lolium perenne). The map supplements a previous map of this population by having markers in common with several other Lolium spp. maps including EST-SSR anchor markers from a consensus map published by other researchers. A QTL analysis was conducted with disease severity and infection type data obtained by controlled inoculation of the population with each of two previously characterized pathotypes of Puccinia graminis subsp. graminicola that differ in virulence to different host plant genotypes in the F1 population. Each pathotype activated a specific QTL on one linkage group (LG): qLpPg1 on LG7 for pathotype 101, or qLpPg2 on LG1 for pathotype 106. Both pathotypes also activated a third QTL in common, qLpPg3 on LG6. Anchor markers, present on a consensus map, were located in proximity to each of the three QTL. These QTL had been detected also in previous experiments in which a genetically heterogeneous inoculum of the stem rust pathogen activated all three QTL together. The results of this and a previous study are consistent with the involvement of the pathotype-specific QTL in pathogen recognition and the pathotype-nonspecific QTL in a generalized resistance response. By aligning the markers common to other published reports, it appears that two and possibly all three of the stem rust QTL reported here are in the same general genomic regions containing some of the L. perenne QTL reported to be activated in response to the crown rust pathogen (P. coronata).Keywords: Ryegrass population, Fescue festuca pratensis, Disease resistance, Puccinia coronata resistance, SSR markers, Multiflorum lam., Crown rust, Self incompatibility, F-SP Lolii, Linkage mapKeywords: Ryegrass population, Fescue festuca pratensis, Disease resistance, Puccinia coronata resistance, SSR markers, Multiflorum lam., Crown rust, Self incompatibility, F-SP Lolii, Linkage ma
On Approximately Symmetric Informationally Complete Positive Operator-Valued Measures and Related Systems of Quantum States
We address the problem of constructing positive operator-valued measures
(POVMs) in finite dimension consisting of operators of rank one which
have an inner product close to uniform. This is motivated by the related
question of constructing symmetric informationally complete POVMs (SIC-POVMs)
for which the inner products are perfectly uniform. However, SIC-POVMs are
notoriously hard to construct and despite some success of constructing them
numerically, there is no analytic construction known. We present two
constructions of approximate versions of SIC-POVMs, where a small deviation
from uniformity of the inner products is allowed. The first construction is
based on selecting vectors from a maximal collection of mutually unbiased bases
and works whenever the dimension of the system is a prime power. The second
construction is based on perturbing the matrix elements of a subset of mutually
unbiased bases.
Moreover, we construct vector systems in \C^n which are almost orthogonal
and which might turn out to be useful for quantum computation. Our
constructions are based on results of analytic number theory.Comment: 29 pages, LaTe
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Experimental measurements of plasma properties for Miller SG-100 torch with Mach I setting
In this work measurements of plasma properties, including the fields of temperature, velocity and plasma composition have been completed for the Miller SG-100 plasma torch using argon-helium mixtures with the Mach 1 nozzle at 1 atm pressure. A computer-controlled system combining both spectroscopic and enthalpy probe diagnostics has been developed to allow temperature measurements covering a range from 2000--16000K which includes the plasma flame region which is of interest. The experimental results expose the dominant effects in different spatial areas of argon-helium plasma jets. In the center near the nozzle exit the temperatures exceed 10,000K, and strong diffusion exists due to the steep radial gradients of temperature and particle number densities. In the jet tail region where the temperatures are well below 10,000K and decay in axial and radial direction, the dominant effects in this area are strong cold gas entrainment associated with turbulence. Substantial discrepancies between temperatures evaluated from spectroscopic and enthalpy probe data are particularly severe in the jet fringes indicating that strong deviations from LTE may exist in the jet fringes. In addition, entrainment of the cold surrounding gas into the plasma jet causes severe discrepancies between spectrometric and enthalpy probe data. The validity of the two diagnostic methods will be discussed. The temperature profiles in argon-helium plasma jets are flatter and wider, and the velocities are higher than in a pure argon plasma jet. These features of argon-helium plasma jets may be beneficial for obtaining better performance in the plasma spraying process. 26 refs., 28 figs., 2 tabs
Gain More for Less: The Surprising Benefits of QoS Management in Constrained NDN Networks
Quality of Service (QoS) in the IP world mainly manages forwarding resources,
i.e., link capacities and buffer spaces. In addition, Information Centric
Networking (ICN) offers resource dimensions such as in-network caches and
forwarding state. In constrained wireless networks, these resources are scarce
with a potentially high impact due to lossy radio transmission. In this paper,
we explore the two basic service qualities (i) prompt and (ii) reliable traffic
forwarding for the case of NDN. The resources we take into account are
forwarding and queuing priorities, as well as the utilization of caches and of
forwarding state space. We treat QoS resources not only in isolation, but
correlate their use on local nodes and between network members. Network-wide
coordination is based on simple, predefined QoS code points. Our findings
indicate that coordinated QoS management in ICN is more than the sum of its
parts and exceeds the impact QoS can have in the IP world
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Abrupt thermal transition reveals hydrothermal boundary and role of seamounts within the Cocos Plate
New thermal data from 18–24 Ma lithosphere on the
Cocos Plate delineate contrasting subsurface thermal
conditions in adjacent sections of crust. Heat flow through
seafloor created at the East Pacific Rise is generally
suppressed by ~70% relative to conductive lithospheric
cooling models, whereas heat flow through adjacent,
similarly-aged lithosphere generated at the Cocos-Nazca
Spreading Center is consistent with these models. The
transition between thermal regimes is remarkably abrupt,
only 2–5 km wide, indicating a shallow hydrothermal origin.
The transition is more closely associated with differences in
the distribution of basement outcrops than with tectonic
boundaries, demonstrating the importance of the former in
extracting heat from the lithosphere on a regional basis
Linkage Mapping and Comparative Genomics Using Next-Generation RAD Sequencing of a Non-Model Organism
Restriction-site associated DNA (RAD) sequencing is a powerful new method for targeted sequencing across the genomes of many individuals. This approach has broad potential for genetic analysis of non-model organisms including genotype-phenotype association mapping, phylogeography, population genetics and scaffolding genome assemblies through linkage mapping. We constructed a RAD library using genomic DNA from a Plutella xylostella (diamondback moth) backcross that segregated for resistance to the insecticide spinosad. Sequencing of 24 individuals was performed on a single Illumina GAIIx lane (51 base paired-end reads). Taking advantage of the lack of crossing over in homologous chromosomes in female Lepidoptera, 3,177 maternally inherited RAD alleles were assigned to the 31 chromosomes, enabling identification of the spinosad resistance and W/Z sex chromosomes. Paired-end reads for each RAD allele were assembled into contigs and compared to the genome of Bombyx mori (n = 28) using BLAST, revealing 28 homologous matches plus 3 expected fusion/breakage events which account for the difference in chromosome number. A genome-wide linkage map (1292 cM) was inferred with 2,878 segregating RAD alleles inherited from the backcross father, producing chromosome and location specific sequenced RAD markers. Here we have used RAD sequencing to construct a genetic linkage map de novo for an organism that has no previous genome data. Comparative analysis of P. xyloxtella linkage groups with B. mori chromosomes shows for the first time, genetic synteny appears common beyond the Macrolepidoptera. RAD sequencing is a powerful system capable of rapidly generating chromosome specific data for non-model organisms
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