7,316 research outputs found
5MW Power Upgrade Studies of the ISIS TS1 Target
The increasing demand for neutron production at the ISIS neutron spallation source has motivated a study of an upgrade of the production target TS1. This study focuses on a 5 MW power upgrade and complete redesign of the ISIS TS1 spallation target, reflector and neutron moderators. The optimisation of the target-moderator arrangement was done in order to obtain the maximum neutron output per unit input power. In addition, at each step of this optimisation study, the heat load and thermal stresses were calculated to ensure the target can sustain the increase in the beam power
Low Temperature Magnetic Properties of the Double Exchange Model
We study the {\it ferromagnetic} (FM) Kondo lattice model in the strong
coupling limit (double exchange (DE) model). The DE mechanism proposed by Zener
to explain ferromagnetism has unexpected properties when there is more than one
itinerant electron. We find that, in general, the many-body ground state of the
DE model is {\it not} globally FM ordered (except for special filled-shell
cases). Also, the low energy excitations of this model are distinct from spin
wave excitations in usual Heisenberg ferromagnets, which will result in unusual
dynamic magnetic properties.Comment: 5 pages, RevTeX, 5 Postscript figures include
Interchain Coupling Effects and Solitons in CuGeO_3
The effects of interchain coupling on solitons and soliton lattice structures
in CuGeO3 are explored. It is shown that interchain coupling substantially
increases the soliton width and changes the soliton lattice structures in the
incommensurate phase. It is proposed that the experimentally observed large
soliton width in CuGeO3 is mainly due to interchain coupling effects.Comment: 4 pages, LaTex, one eps figure included. No essential changes except
forma
Quantum Manifestation of Elastic Constants in Nanostructures
Generally, there are two distinct effects in modifying the properties of
low-dimensional nanostructures: surface effect (SS) due to increased
surface-volume ratio and quantum size effect (QSE) due to quantum confinement
in reduced dimension. The SS has been widely shown to affect the elastic
constants and mechanical properties of nanostructures. Here, using Pb nanofilm
and graphene nanoribbon as model systems, we demonstrate the QSE on the elastic
constants of nanostructures by first-principles calculations. We show that
generally QSE is dominant in affecting the elastic constants of metallic
nanostructures while SS is more pronounced in semiconductor and insulator
nanostructures. Our findings have broad implications in quantum aspects of
nanomechanics
Viscous, resistive MHD stability computed by spectral techniques
Expansions in Chebyshev polynomials are used to study the linear stability of one dimensional magnetohydrodynamic (MHD) quasi-equilibria, in the presence of finite resistivity and viscosity. The method is modeled on the one used by Orszag in accurate computation of solutions of the Orr-Sommerfeld equation. Two Reynolds like numbers involving Alfven speeds, length scales, kinematic viscosity, and magnetic diffusivity govern the stability boundaries, which are determined by the geometric mean of the two Reynolds like numbers. Marginal stability curves, growth rates versus Reynolds like numbers, and growth rates versus parallel wave numbers are exhibited. A numerical result which appears general is that instability was found to be associated with inflection points in the current profile, though no general analytical proof has emerged. It is possible that nonlinear subcritical three dimensional instabilities may exist, similar to those in Poiseuille and Couette flow
Realizing degree sequences with graphs having nowhere-zero 3-flows
The following open problem was proposed by Archdeacon: Characterize all graphical sequences π such that some realization of π admits a nowhere-zero 3-flow. The purpose of this paper is to resolve this problem and present a complete characterization: A graphical sequence π = (d I,d2,...,dn) with minimum degree at least two has a realization that admits a nowhere-zero 3-flow if and only if π ≠(34,2), (k,3k), (k2,3k-1), where k is an odd integer. © 2008 Society for Industrial and Applied Mathematics.published_or_final_versio
Prediction and analysis of slab quality based on neural network combined with particle swarm optimization (PSO)
Based on the study of the mechanism of bloom crack, the main factors affecting the quality of bloom are determined. The intelligent optimization algorithm combining PSO and Back Propagation(BP) neural network is introduced to establish the prediction model based on typical defects. Collect on-site sample data, normalize it, and PSO is used to recalculate the weights and thresholds to accelerate the convergence and improve the accuracy and stability of the results. The experimental results show that the prediction accuracy of the optimized neural network model is high, and it is closer to the actual production of continuous casting
Water, waste, energy and food nexus in Brazil: Identifying a resource interlinkage research agenda through a systematic review
The resource nexus consists of a framework to address interlinkages between natural resources and systems that provide water, energy, food and waste management. It transcends traditional assessments conducted in “silos”, raising trade-offs and synergies that are rarely acknowledged. The nexus framework is intrinsically context-specific, as each respective region has particularities in terms of critical interlinkages. Brazil is the world's eighth largest economy [1] and is heavily reliant on natural resources. This paper considers Brazil to be a textbook case for nexus research that identifies critical interlinkages that are neglected by literature, which is typically based on single-resource analysis. It proposes a research agenda to advance resource nexus assessments and improve resource governance in Brazil. We propose a novel method for nexus research, systematically reviewing geographical context-specific papers in relevant single nexus dimensions and establishing resource interlinkages that characterise research gaps and policy priorities. We found that 36% of practices reviewed involve more than one resource at a time, characterising interlinkages not analysed by the literature. Lastly, selected quantitative indicators were used to identify critical interlinkages by analysing the representativeness of practices in the national context, and the relevance of synergies or trade-offs for Brazil. Critical interlinkages in Brazil were found to be irrigation for energy crop expansion (water, food and energy); transport biofuels and fuelwood (water, energy, food); deforestation for new pasture (water, energy, food); and hydropower generation (water and energy). These are, therefore, priorities for future nexus research and for efforts to address synergies and trade-offs in resource governance
Persistent Current in the Ferromagnetic Kondo Lattice Model
In this paper, we study the zero temperature persistent current in a
ferromagnetic Kondo lattice model in the strong coupling limit. In this model,
there are spontaneous spin textures at some values of the external magnetic
flux. These spin textures contribute a geometric flux, which can induce an
additional spontaneous persistent current. Since this spin texture changes with
the external magnetic flux, we find that there is an anomalous persistent
current in some region of magnetic flux: near Phi/Phi_0=0 for an even number of
electrons and Phi/Phi_0=1/2 for an odd number of electrons.Comment: 6 RevTeX pages, 10 figures include
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