748 research outputs found
Minimal Surfaces, Screw Dislocations and Twist Grain Boundaries
Large twist-angle grain boundaries in layered structures are often described
by Scherk's first surface whereas small twist-angle grain boundaries are
usually described in terms of an array of screw dislocations. We show that
there is no essential distinction between these two descriptions and that, in
particular, their comparative energetics depends crucially on the core
structure of their screw-dislocation topological defects.Comment: 10 pages, harvmac, 1 included postscript figure, final versio
River Otter in Arkansas: II. Indications of a Beaver-Facilitated Commensal Relationship
Dam building activities of beaver (Castor canadensis) create ponds that apparently augment habitat available to otter (Lutra canadensis). This paper considers possible effects of beaver activity and pond formation on distribution and populations of otter in Arkansas. Literature synthesis and analysis of harvest records were used to investigate the suspected relationship
A planar dielectric antenna for directional single-photon emission and near-unity collection efficiency
Single emitters have been considered as sources of single photons in various
contexts such as cryptography, quantum computation, spectroscopy, and
metrology. The success of these applications will crucially rely on the
efficient directional emission of photons into well-defined modes. To
accomplish a high efficiency, researchers have investigated microcavities at
cryogenic temperatures, photonic nanowires, and near-field coupling to metallic
nano-antennas. However, despite an impressive progress, the existing
realizations substantially fall short of unity collection efficiency. Here we
report on a theoretical and experimental study of a dielectric planar antenna,
which uses a layered structure for tailoring the angular emission of a single
oriented molecule. We demonstrate a collection efficiency of 96% using a
microscope objective at room temperature and obtain record detection rates of
about 50 MHz. Our scheme is wavelength-insensitive and can be readily extended
to other solid-state emitters such as color centers and semiconductor quantum
dots
Phase Transition between the Cholesteric and Twist Grain Boundary C Phases
The upper critical temperature Tc2 for the phase transition between the
Cholesteric phase (N*) and the Twist Grain Boundary C phase with the layer
inclination tilted to the pitch axis (TGBct) in thermotropic liquid crystals is
determined by the mean field Chen-Lubensky approach. We show that the N*-TGBct
phase transition is split in two with the appearance of either the TGBA or the
TGB2q phase in a narrow temperature interval below Tc2. The latter phase is
novel in being superposed from two degenerate
TGBct phases with different (left and right) layers inclinations to the pitch
axis.Comment: Phys. Rev. E, to be publ; 24 pages, RevTeX + 3 ps figure
An Updated Checklist of the Spiders (Arachnida: Araneae) of Arkansas
A total of 510 species of spiders representing 43 families and 215 genera are herein reported from Arkansas. The most diverse families of state spiders were Salticidae (64 species), Lycosidae (59 species), Araneidae (55 species), and Gnaphosidae (54 species). Twelve families had only a single representative species in the state. Additional taxa will surely be added to the checklist with future taxonomic studies incorporating molecular analyses and additional collecting. This updated checklist is intended to be of use to arachnologists, researchers, naturalists, professional biologists, and managers in determining the biodiversity for Arkansas. We have worked to insure that the taxonomy of the spiders documented in Arkansas is current and authoritative
Tunneling Between a Pair of Parallel Hall Droplets
In this paper, we examine interwell tunneling between a pair of fractional
quantum Hall liquids in a double quantum well system in a tilted magnetic
field. Using a variational Monte Carlo method, we calculate moments of the
intra-Landau level tunneling spectrum as a function of in-plane field component
and interwell spacing . This is done for variety of
incompressible states including a pair of layers ([330]), pair of
layers ([550]), and Halperin's [331] state. The results suggest a
technique to extract interwell correlations from the tunneling spectral data.Comment: 21 pages and 8 figures (included), RevTeX, preprint no. UCSDCU
Shifting the quantum Hall plateau level in a double layer electron system
We study the plateaux of the integer quantum Hall resistance in a bilayer
electron system in tilted magnetic fields. In a narrow range of tilt angles and
at certain magnetic fields, the plateau level deviates appreciably from the
quantized value with no dissipative transport emerging. A qualitative account
of the effect is given in terms of decoupling of the edge states corresponding
to different electron layers/Landau levels.Comment: 3 pages, 3 figures include
Development of strategies for effective communication of food risks and benefits across Europe: Design and conceptual framework of the FoodRisC project
The FoodRisC project is funded under the Seventh Framework Programme (CORDIS FP7) of the European Commission; Grant agreement no.: 245124. Copyright @ 2011 Barnett et al.BACKGROUND: European consumers are faced with a myriad of food related risk and benefit information and it is regularly left up to the consumer to interpret these, often conflicting, pieces of information as a coherent message. This conflict is especially apparent in times of food crises and can have major public health implications. Scientific results and risk assessments cannot always be easily communicated into simple guidelines and advice that non-scientists like the public or the media can easily understand especially when there is conflicting, uncertain or complex information about a particular food or aspects thereof. The need for improved strategies and tools for communication about food risks and benefits is therefore paramount. The FoodRisC project ("Food Risk Communication - Perceptions and communication of food risks/benefits across Europe: development of effective communication strategies") aims to address this issue. The FoodRisC project will examine consumer perceptions and investigate how people acquire and use information in food domains in order to develop targeted strategies for food communication across Europe.METHODS/DESIGN: This project consists of 6 research work packages which, using qualitative and quantitative methodologies, are focused on development of a framework for investigating food risk/benefit issues across Europe, exploration of the role of new and traditional media in food communication and testing of the framework in order to develop evidence based communication strategies and tools. The main outcome of the FoodRisC project will be a toolkit to enable coherent communication of food risk/benefit messages in Europe. The toolkit will integrate theoretical models and new measurement paradigms as well as building on social marketing approaches around consumer segmentation. Use of the toolkit and guides will assist policy makers, food authorities and other end users in developing common approaches to communicating coherent messages to consumers in Europe.DISCUSSION: The FoodRisC project offers a unique approach to the investigation of food risk/benefit communication. The effective spread of food risk/benefit information will assist initiatives aimed at reducing the burden of food-related illness and disease, reducing the economic impact of food crises and ensuring that confidence in safe and nutritious food is fostered and maintained in Europe.This article is available through the Brunel Open Access Publishing Fund
Collective excitations in double-layer quantum Hall systems
We study the collective excitation spectra of double-layer quantum-Hall
systems using the single mode approximation. The double-layer in-phase density
excitations are similar to those of a single-layer system. For out-of-phase
density excitations, however, both inter-Landau-level and intra-Landau-level
double-layer modes have finite dipole oscillator strengths. The oscillator
strengths at long wavelengths for the latter transitions are shifted upward by
interactions by identical amounts proportional to the interlayer Coulomb
coupling. The intra-Landau-level out-of-phase mode has a gap when the ground
state is incompressible except in the presence of spontaneous inter-layer
coherence. We compare our results with predictions based on the
Chern-Simons-Landau-Ginzburg theory for double-layer quantum Hall systems.Comment: RevTeX, 21 page
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