190 research outputs found
Excitons in few-layer hexagonal boron nitride: Davydov splitting and surface localization
Hexagonal boron nitride (hBN) has been attracting great attention because of
its strong excitonic effects. Taking into account few-layer systems, we
investigate theoretically the effects of the number of layers on quasiparticle
energies, absorption spectra, and excitonic states, placing particular focus on
the Davydov splitting of the lowest bound excitons. We describe how the
inter-layer interaction as well as the variation in electronic screening as a
function of layer number affects the electronic and optical properties.
Using both \textit{ab initio} simulations and a tight-binding model for an
effective Hamiltonian describing the excitons, we characterize in detail the
symmetry of the excitonic wavefunctions and the selection rules for their
coupling to incoming light. We show that for , one can distinguish
between surface excitons that are mostly localized on the outer layers and
inner excitons, leading to an asymmetry in the energy separation between split
excitonic states. In particular, the bound surface excitons lie lower in energy
than their inner counterparts. Additionally, this enables us to show how the
layer thickness affects the shape of the absorption spectrum.Comment: 24 pages, 10 figure
Excitons in boron nitride single layer
Boron nitride single layer belongs to the family of 2D materials whose
optical properties are currently receiving considerable attention. Strong
excitonic effects have already been observed in the bulk and still stronger
effects are predicted for single layers. We present here a detailed study of
these properties by combining \textit{ab initio} calculations and a
tight-binding-Wannier analysis in both real and reciprocal space. Due to the
simplicity of the band structure with single valence () and conduction
() bands the tight-binding analysis becomes quasi quantitative with only
two adjustable parameters and provides tools for a detailed analysis of the
exciton properties. Strong deviations from the usual hydrogenic model are
evidenced. The ground state exciton is not a genuine Frenkel exciton, but a
very localized "tightly-bound" one. The other ones are similar to those found
in transition metal dichalcogenides and, although more localized, can be
described within a Wannier-Mott scheme
Twitching motility among pathogenic Xylella fastidiosa isolates and the influence of bovine serum albumin on twitching-dependent colony fringe morphology
Fourteen Xylella fastidiosa isolates from grapevines exhibiting Pierce's disease symptoms in California, Texas, and South Carolina were examined for type IV pilus-mediated twitching motility, a phenotype previously observed in a Temecula isolate from California. All isolates except one from South Carolina (SC 19A97) exhibited colonies with a peripheral fringe on PW agar, a feature indicative of twitching motility; however, when individual cells of SC 19A97 were examined at higher magnifications twitching motility was observed. The presence and width of colony peripheral fringes were related to the amount of bovine serum albumin (BSA) present in the medium; no or low levels of BSA (0-1.8 g L−1) permitted development of the widest fringe, whereas higher levels (3.5-6.0 g L−1) severely limited, and in many instances prevented, peripheral fringe development. The growth rate of the wild-type Temecula isolate in PW broth with different concentrations of BSA was similar for all tested concentrations of BSA; however, growth was significantly reduced in medium without BS
Spatial heterogeneity in projected leprosy trends in India
Background: Leprosy is caused by infection with Mycobacterium leprae and is characterized by peripheral nerve damage and skin lesions. The disease is classified into paucibacillary (PB) and multibacillary (MB) leprosy. The 2012 London Declaration formulated the following targets for leprosy control: (1) global interruption of transmission or elimination by 2020, and (2) reduction of grade-2 disabilities in newly detected cases to below 1 per million population at a global level by 2020. Leprosy is treatable, but diagnosis, access to treatment and treatment adherence (all necessary to curtail transmission) represent major challenges. Globally, new case detection rates for leprosy have remained fairly stable in the past decade, with India responsible for more than half of cases reported annually.
Methods: We analyzed publicly available data from the Indian Ministry of Health and Family Welfare, and fit linear mixed-effects regression models to leprosy case detection trends reported at the district level. We assessed correlation of the new district-level case detection rate for leprosy with several state-level regressors: TB incidence, BCG coverage, fraction of cases exhibiting grade 2 disability at diagnosis, fraction of cases in children, and fraction multibacillary.
Results: Our analyses suggest an endemic disease in very slow decline, with substantial spatial heterogeneity at both district and state levels. Enhanced active case finding was associated with a higher case detection rate.
Conclusions: Trend analysis of reported new detection rates from India does not support a thesis of rapid progress in leprosy control
EpiFire: An Open Source C++ Library and Application for Contact Network Epidemiology
Background: Contact network models have become increasingly common in epidemiology, but we lack a flexible programming framework for the generation and analysis of epidemiological contact networks and for the simulation of disease transmission through such networks. Results: Here we present EpiFire, an applications programming interface and graphical user interface implemented in C++, which includes a fast and efficient library for generating, analyzing and manipulating networks. Network-based percolation and chain-binomial simulations of susceptible-infected-recovered disease transmission, as well as traditional non-network mass-action simulations, can be performed using EpiFire. Conclusions: EpiFire provides an open-source programming interface for the rapid development of network models with a focus in contact network epidemiology. EpiFire also provides a point-and-click interface for generating networks, conducting epidemic simulations, and creating figures. This interface is particularly useful as a pedagogical tool
Developing education on problematic substance use in Norwegian social work bachelor’s degree
This commentary article is based on a mapping of education on problematic substance use (PSU) in the Norwegian social work bachelor’s degree (SWBD). The results show that national discussions are necessary to ensure that Norwegian SWBD students are provided with consistent and adequate education in preparation for work with PSU issues in social work practice. A practical starting point for development is presented. A discussion concerning social work’s role in future theoretical, practical, and research developments in the field of PSU is paramount
Excitons in few-layer hexagonal boron nitride: Davydov splitting and surface localization
Hexagonal boron nitride (hBN) has been attracting great attention because of its strong excitonic effects. Taking into account few-layer systems, we investigate theoretically the effects of the number of layers on quasiparticle energies, absorption spectra, and excitonic states, placing particular focus on the Davydov splitting of the lowest bound excitons. We describe how the inter-layer interaction as well as the variation in electronic screening as a function of layer number N affects the electronic and optical properties. Using both ab initio calculations and a tight-binding model for an effective Hamiltonian describing the excitons, we characterize in detail the symmetry of the excitonic wavefunctions and the selection rules for their coupling to incoming light. We show that for N > 2, one can distinguish between surface excitons that are mostly localized on the outer layers and inner excitons, leading to an asymmetry in the energy separation between split excitonic states. In particular, the bound surface excitons lie lower in energy than their inner counterparts. Additionally, this enables us to show how the layer thickness affects the shape of the absorption spectrum
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Evaluating Paratransgenesis as a Potential Control Strategy for African Trypanosomiasis
Genetic-modification strategies are currently being developed to reduce the transmission of vector-borne diseases, including African trypanosomiasis. For tsetse, the vector of African trypanosomiasis, a paratransgenic strategy is being considered: this approach involves modification of the commensal symbiotic bacteria Sodalis to express trypanosome-resistance-conferring products. Modified Sodalis can then be driven into the tsetse population by cytoplasmic incompatibility (CI) from Wolbachia bacteria. To evaluate the effectiveness of this paratransgenic strategy in controlling African trypanosomiasis, we developed a three-species mathematical model of trypanosomiasis transmission among tsetse, humans, and animal reservoir hosts. Using empirical estimates of CI parameters, we found that paratransgenic tsetse have the potential to eliminate trypanosomiasis, provided that any extra mortality caused by Wolbachia colonization is low, that the paratransgene is effective at protecting against trypanosome transmission, and that the target tsetse species comprises a large majority of the tsetse population in the release location
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