562 research outputs found
Optimized explicit Runge-Kutta schemes for the spectral difference method applied to wave propagation problems
Explicit Runge-Kutta schemes with large stable step sizes are developed for
integration of high order spectral difference spatial discretization on
quadrilateral grids. The new schemes permit an effective time step that is
substantially larger than the maximum admissible time step of standard explicit
Runge-Kutta schemes available in literature. Furthermore, they have a small
principal error norm and admit a low-storage implementation. The advantages of
the new schemes are demonstrated through application to the Euler equations and
the linearized Euler equations.Comment: 37 pages, 3 pages of appendi
Detecting severe acute malnutrition in children under five at scale : the challenges of anthropometry to reach the missed millions
Objective: Severe Acute Malnutrition (SAM) interventions aim to detect and
treat children at highest risk of death who benefit most from treatment. SAM
services reach less than 20% of affected children worldwide, and innovative
policy changes are needed to scale up services. This paper discusses
anthropometry to diagnose SAM as one pathway to improve the effectiveness
coverage of SAM services.
Results: WHO defines SAM by either MUAC <115 mm or WHZ <−3 or
the presence of nutritional oedema. Both MUAC and WHZ are proxy indicators
of a clinical condition, and neither is a gold standard. Because they measure
different characteristics of the same illness, MUAC and WHZ identify different
SAM populations that overlap differently in different contexts across and
within countries. MUAC is a better predictor of mortality and has the practical
advantages of simplicity, reliability and accuracy. Using both indicators
independently identifies more children and loses sensitivity to risk of death.
Discussion and Conclusion: Based on current evidence and operational
and policy considerations, using MUAC only for diagnosing SAM with a countryadapted cut-off could feasibly scale up SAM services and improve coverage to
reach the millions of missed children. Meanwhile, continued research on the
biomedical consequences and policy implications of this approach, as well as
innovations such as system dynamics modeling, may contribute to the evidence
Pole dynamics for the Flierl-Petviashvili equation and zonal flow
We use a systematic method which allows us to identify a class of exact
solutions of the Flierl-Petvishvili equation. The solutions are periodic and
have one dimensional geometry. We examine the physical properties and find that
these structures can have a significant effect on the zonal flow generation.Comment: Latex 40 pages, seven figures eps included. Effect of variation of
g_3 is studied. New references adde
EM Calorimeters for SoLID at Jefferson Lab
Several approved experiments at Jefferson Lab for the 12 GeV era will use the proposed Solenoid Large Intensity Device (SoLID) spectrometer. Two EM calorimeters with a total area of 15 square meters are required for electron identification and electron-pion separation. The challenge is to build calorimeters that can withstand high radiation doses in high magnetic field region and bring photon signals to low field region for readout. Several types of calorimeters were considered and we are favoring Shashlyk type as a result of balancing performance and cost. Our preliminary design and simulation of SoLID EM calorimeters are presented
Precision Electron-Beam Polarimetry at 1 GeV Using Diamond Microstrip Detectors
We report on the highest precision yet achieved in the measurement of the polarization of a low-energy, O(1 GeV), continuous-wave (CW) electron beam, accomplished using a new polarimeter based on electron-photon scattering, in Hall C at Jefferson Lab. A number of technical innovations were necessary, including a novel method for precise control of the laser polarization in a cavity and a novel diamond microstrip detector that was able to capture most of the spectrum of scattered electrons. The data analysis technique exploited track finding, the high granularity of the detector, and its large acceptance. The polarization of the 180-mu A, 1.16-GeV electron beam was measured with a statistical precision of \u3c 1% per hour and a systematic uncertainty of 0.59%. This exceeds the level of precision required by the Qweak experiment, a measurement of the weak vector charge of the proton. Proposed future low-energy experiments require polarization uncertainty \u3c 0.4%, and this result represents an important demonstration of that possibility. This measurement is the first use of diamond detectors for particle tracking in an experiment. It demonstrates the stable operation of a diamond-based tracking detector in a high radiation environment, for two years
Exact Floquet states of a driven condensate and their stabilities
We investigate the Gross-Pitaevskii equation for a classically chaotic
system, which describes an atomic Bose-Einstein condensate confined in an
optical lattice and driven by a spatiotemporal periodic laser field. It is
demonstrated that the exact Floquet states appear when the external
time-dependent potential is balanced by the nonlinear mean-field interaction.
The balance region of parameters is divided into a phase-continuing region and
a phase-jumping one. In the latter region, the Floquet states are
spatiotemporal vortices of nontrivial phase structures and zero-density cores.
Due to the velocity singularities of vortex cores and the blowing-up of
perturbed solutions, the spatiotemporal vortices are unstable periodic states
embedded in chaos. The stability and instability of these Floquet states are
numerically explored by the time evolution of fidelity between the exact and
numerical solutions. It is numerically illustrated that the stable Floquet
states could be prepared from the uniformly initial states by slow growth of
the external potential.Comment: 14 pages, 3 eps figures, final version accepted for publication in J.
Phys.
Beam-Target Double-Spin Asymmetry A(LT) in Charged Pion Production from Deep Inelastic Scattering on a Transversely Polarized He-3 Target at 1.4 \u3c Q(2) \u3c 2.7 GeV2
We report the first measurement of the double-spin asymmetry A(LT) for charged pion electroproduction in semi-inclusive deep-inelastic electron scattering on a transversely polarized He-3 target. The kinematics focused on the valence quark region, 0.16 \u3c x \u3c 0.35 with 1.4 \u3c Q(2) \u3c 2.7 GeV2. The corresponding neutron A(LT) asymmetries were extracted from the measured He-3 asymmetries and proton over He-3 cross section ratios using the effective polarization approximation. These new data probe the transverse momentum dependent parton distribution function g(1T)(q) and therefore provide access to quark spin-orbit correlations. Our results indicate a positive azimuthal asymmetry for pi(-) production on He-3 and the neutron, while our pi(+) asymmetries are consistent with zero
Safety, tolerability and pharmacokinetics of eteplirsen in young boys aged 6-48 months with Duchenne muscular dystrophy amenable to exon 51 skipping
Eteplirsen is FDA-approved for the treatment of Duchenne muscular dystrophy (DMD) in exon 51 skip-amenable patients. Previous studies in boys > 4 years of age indicate eteplirsen is well tolerated and attenuates pulmonary and ambulatory decline compared with matched natural history cohorts. Here the safety, tolerability and pharmacokinetics of eteplirsen in boys aged 6–48 months is evaluated. In this open-label, multicenter, dose-escalation study (NCT03218995), boys with a confirmed mutation of the DMD gene amenable to exon 51 skipping (Cohort 1: aged 24–48 months, n = 9; Cohort 2: aged 6 to 4 years of age. These data support the safety and tolerability of eteplirsen at the approved 30-mg/kg dose in boys as young as 6 months old
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