2,131 research outputs found
Measuring Accuracy of Triples in Knowledge Graphs
An increasing amount of large-scale knowledge graphs have been constructed in recent years. Those graphs are often created from text-based extraction, which could be very noisy. So far, cleaning knowledge graphs are often carried out by human experts and thus very inefficient. It is necessary to explore automatic methods for identifying and eliminating erroneous information. In order to achieve this, previous approaches primarily rely on internal information i.e. the knowledge graph itself. In this paper, we introduce an automatic approach, Triples Accuracy Assessment (TAA), for validating RDF triples (source triples) in a knowledge graph by finding consensus of matched triples (among target triples) from other knowledge graphs. TAA uses knowledge graph interlinks to find identical resources and apply different matching methods between the predicates of source triples and target triples. Then based on the matched triples, TAA calculates a confidence score to indicate the correctness of a source triple. In addition, we present an evaluation of our approach using the FactBench dataset for fact validation. Our findings show promising results for distinguishing between correct and wrong triples
Could the be substantially different from and in the supersymmetric standard model?
R-parity stands as an ad hoc assumption in the most popular version of the
supersymmetric standard model. More than fifteen years' studies of R-parity
violations have been restricted to various limiting scenarios. We illustrate
how the single-VEV parametrization provides a workable framework to analyze the
phenomenology of the complete theory of supersymmetry without R-parity. In our
comprehensive study of various aspects of the resulting leptonic phenomenology
at tree-level, we find that the physical lepton could actually bear
substantial gaugino and higgsino components, making it very different from the
and the .Comment: 7 pages in postscript. Talk given by O.K. at Tau98, to be published
in the proceedings; reprint number adde
Fermion masses and mixing from an extra gauge symmetry
Assuming that a horizontal abelian (gauge) symmetry is at the origin of
texture zeros in the fermion mass matrices we show how realistic mass patterns
can be generated in the presence of scalar fields whose vacuum expectation
value breaks the extra symmetry. In the simplest scenario with just one
pair of singlet fields and under the assumption of L-R symmetry one obtains
quark mass matrices {\it \`a la Fritzsch}. The symmetry can be made
anomaly free by the Green-Schwarz mechanism in which case the canonical
unification of the gauge couplings emerges as its byproduct. The generation of
neutrino masses requires either two extra heavy scalar (Higgs) fields to
determine the texture structure of the righthanded neutrino mass matrix or the
latter will contain a hierarchy of scales.Comment: 7 pages of LATE
Nonminimal supersymmetric standard model with lepton number violation
We carry out a detailed analysis of the nonminimal supersymmetric standard
model with lepton number violation. The model contains a unique trilinear
lepton number violating term in the superpotential which can give rise to
neutrino masses at the tree level. We search for the gauged discrete symmetries
realized by cyclic groups which preserve the structure of the associated
trilinear superpotential of this model, and which satisfy the constraints of
the anomaly cancellation. The implications of this trilinear lepton number
violating term in the superpotential and the associated soft supersymmetry
breaking term on the phenomenology of the light neutrino masses and mixing is
studied in detail. We evaluate the tree and loop level contributions to the
neutrino mass matrix in this model. We search for possible suppression
mechanism which could explain large hierarchies and maximal mixing angles.Comment: Latex file, 43 pages, 2 figure
Radio Emission from 3D Relativistic Hydrodynamic Jets: Observational Evidence of Jet Stratification
We present the first radio emission simulations from high resolution three
dimensional relativistic hydrodynamic jets, which allow for a study of the
observational implications of the interaction between the jet and external
medium. This interaction gives rise to a stratification of the jet where a fast
spine is surrounded by a slow high energy shear layer. The stratification, and
in particular the large specific internal energy and slow flow in the shear
layer largely determines the emission from the jet. If the magnetic field in
the shear layer becomes helical (e.g., resulting from an initial toroidal field
and an aligned field component generated by shear) the emission shows a cross
section asymmetry, in which either the top or the bottom of the jet dominates
the emission. This, as well as limb or spine brightening, is a function of the
viewing angle and flow velocity, and the top/bottom jet emission predominance
can be reversed if the jet changes direction with respect to the observer, or
presents a change in velocity. The asymmetry is more prominent in the polarized
flux, because of field cancellation (or amplification) along the line of sight.
Recent observations of jet cross section emission asymmetries in the blazar
1055+018 can be explained assuming the existence of a shear layer with a
helical magnetic field.Comment: 6 pages, 5 figures, 1 latex style file, ApJL accepte
Water mass distributions and transports for the 2014 GEOVIDE cruise in the North Atlantic
We present the distribution of water masses along the GEOTRACES-GA01 section during the GEOVIDE cruise, which crossed the subpolar North Atlantic Ocean and the Labrador Sea in the summer of 2014. The water mass structure resulting from an extended optimum multiparameter (eOMP) analysis provides the framework for interpreting the observed distributions of trace elements and their isotopes. Central Waters and Subpolar Mode Waters (SPMW) dominated the upper part of the GEOTRACES-GA01 section. At intermediate depths, the dominant water mass was Labrador Sea Water, while the deep parts of the section were filled by Iceland-Scotland Overflow Water (ISOW) and North-East Atlantic Deep Water. We also evaluate the water mass volume transports across the 2014 OVIDE line (Portugal to Greenland section) by combining the water mass fractions resulting from the eOMP analysis with the absolute geostrophic velocity field estimated through a box inverse model. This allowed us to assess the relative contribution of each water mass to the transport across the section. Finally, we discuss the changes in the distribution and transport of water masses between the 2014 OVIDE line and the 2002-2010 mean state. At the upper and intermediate water levels, colder end-members of the water masses replaced the warmer ones in 2014 with respect to 2002-2010, in agreement with the long-term cooling of the North Atlantic Subpolar Gyre that started in the mid-2000s. Below 2000 dbar, ISOW increased its contribution in 2014 with respect to 2002-2010, with the increase being consistent with other estimates of ISOW transports along 58-59° N. We also observed an increase in SPMW in the East Greenland Irminger Current in 2014 with respect to 2002-2010, which supports the recent deep convection events in the Irminger Sea. From the assessment of the relative water mass contribution to the Atlantic Meridional Overturning Circulation (AMOC) across the OVIDE line, we conclude that the larger AMOC intensity in 2014 compared to the 2002-2010 mean was related to both the increase in the northward transport of Central Waters in the AMOC upper limb and to the increase in the southward flow of Irminger Basin SPMW and ISOW in the AMOC lower limb
Anomalous U(1) as a mediator of Supersymmetry Breaking
We point out that an anomalous gauge U(1) symmetry is a natural candidate for
being the mediator and messenger of supersymmetry breaking. It facilitates
dynamical supersymmetry breaking even in the flat limit. Soft masses are
induced by both gravity and the U(1) gauge interactions giving an unusual mass
hierarchy in the sparticle spectrum which suppresses flavor violations. This
scenario does not suffer from the Polonyi problem.Comment: 8 pages, Latex. Some comments adde
Effect of pectin on the composition, microbiology, texture, and functionality of reduced-fat Cheddar cheese
International audienceAbstractHydrocolloids have been extensively studied in low-fat cheeses as a way to improve defects associated with fat reduction, which are often related to texture and functionality (meltability). Pectin is a polysaccharide obtained from plant cells and is commonly used as a stabilizer for acidified dairy beverages. This work aimed to evaluate the effect of three types of commercial pectins on the characteristics of reduced-fat Cheddar cheese during a ripening period of 180Â days. Five Cheddar cheeses were made: full-fat control (FF), reduced-fat control (RF), and reduced-fat cheeses with amidated (RA), high-methoxy (RH), or low-methoxy (RL) pectin added to milk prior processing at concentrations of 0.175%, 0.100%, and 0.075% (w/w), respectively; levels were chosen to avoid phase separation of the casein micelles, due to depletion flocculation. Addition of amidated pectin markedly increased the moisture content of the experimental cheese (~49%), compared to RF (~45%; Pâ100Â N in RF at 180Â days; Pâ85 versus <70% at 180Â days; Pâ<â0.05). These results suggest that pectin addition can be used to modify the moisture content, texture, and melting properties of reduced-fat Cheddar cheese
A Classification of 3-Family Grand Unification in String Theory I. The SO(10) and E_6 Models
We give a classification of 3-family SO(10) and E_6 grand unification in
string theory within the framework of conformal field theory and asymmetric
orbifolds. We argue that the construction of such models in the heterotic
string theory requires certain Z_6 asymmetric orbifolds that include a Z_3
outer-automorphism, the latter yielding a level-3 current algebra for the grand
unification gauge group SO(10) or E_6. We then classify all such Z_6 asymmetric
orbifolds that result in models with a non-abelian hidden sector. All models
classified in this paper have only one adjoint (but no other higher
representation) Higgs field in the grand unified gauge group. In addition, all
of them are completely anomaly free. There are two types of such 3-family
models. The first type consists of the unique SO(10) model with SU(2) X SU(2) X
SU(2) as its hidden sector (which is not asymptotically-free at the string
scale). This SO(10) model has 4 left-handed and 1 right-handed 16s. The second
type is described by a moduli space containing 17 models (distinguished by
their massless spectra). All these models have an SU(2) hidden sector, and 5
left-handed and 2 right-handed families in the grand unified gauge group. One
of these models is the unique E_6 model with an asymptotically-free SU(2)
hidden sector. The others are SO(10) models, 8 of them with an asymptotically
free hidden sector at the string scale.Comment: 35 pages, Revtex 3.0, one eps figure (to appear in Phys. Rev. D
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