475 research outputs found
Dense and Sharp Resonance Peaks in Stretched Moir\'e Waveguides
In this article, we demonstrate dense resonant peaks in the transmission
spectra of a rectangular waveguide inscribed with a stretched moir\'e pattern.
We investigated an array of silicon waveguides with sinusoidally modulated
cladding of varying depth of modulation. The investigation reveals a critical
depth of modulation that splits the geometries into weakly scattering and
strongly scattering regimes. Geometries in the weakly scattering regime
resemble Bragg waveguides with shallow cladding modulation, whereas in the
strongly scattering regime, the geometries resemble chains of isolated
dielectric particles. The guided mode photonic bandgap for geometries in the
strongly scattering regime is much larger than that of the weakly scattering
regime. By inscribing stretched moir\'e patterns in the strongly scattering
regime, we show that a large number of sharp peaks can be created in the
transmission spectra of the waveguide. All periodic stretched moir\'e patterns
can be identified with an R parameter. The R parameter indicates the ratio of
the supercell period of the stretched system to the unstretched system. Our
empirical study shows that the density of peaks linearly increases with R. The
multiple resonance peaks evolve along well-defined trajectories with quality
factor defined by exponential functions of R
Bilayer Metasurface: Induced Transparency and Fabry Perot Resonance
A Fabry-Perot resonator utilizes two solid, non-resonating, reflecting
mirrors to form resonant patterns when the separation between the mirrors
satisfies the resonance conditions. The resonant mode concentrates at the
middle of the cavity. In this study, we constructed a Fabry-Perot cavity with
nanostructured resonant metasurfaces as meta-mirrors. The individual
metasurfaces exhibit resonant transmission dips with a minimum transmission and
a quality factor of t0 and Qs, respectively. The coherent interference between
the two metasurfaces changes the behavior of the entire resonant system,
generating an induced transparency in the original spectrum. The sharpness of
the induced transparency peak is linearly related to the group delay of the
single metasurface. Assuming a Lorentzian lineshape, we show that for small t0,
the quality factor of the induced transparency peak is Qs/t0^3. The field
confines to the meta-mirrors region rather than at the middle of the
Fabry-Perot cavity. We provide examples of practical metasurfaces made from
dielectric scatters composed of silicon thin nanodisks and demonstrate high
quality factors and phase dispersion that are unattainable by any nano or
microscale flat optics systems
Photonic quasicrystal nanopatterned silicon thin film for photovoltaic applications
In this paper, the authors numerically studied the optical properties of a silicon photonic quasicrystal (PQC) nanohole array for photovoltaic applications. With the same active layer thickness, the ultimate efficiency of a solar cell integrated with an optimized PQC nanohole array can be enhanced by 9.01% and 1.40% compared to that with an ordered square lattice of a nanohole array and a random nanohole array, respectively. The absorptance enhancement is mainly due to the higher-order rotational symmetry in PQC structures, which leads to the presence of additional resonant modes, the broadening of existing modes and the reduction of surface reflectance. The angular response for both transverse-electric and transverse-magnetic modes are also analyzed in detail
Role of Linker Functionality in Polymers Exhibiting Main-Chain Thermally Activated Delayed Fluorescence
Excellent performance has been reported for organic lightâemitting diodes (OLEDs) based on small molecule emitters that exhibit thermally activated delayed fluorescence. However, the necessary vacuum processing makes the fabrication of largeâarea devices based on these emitters cumbersome and expensive. Here, the authors present high performance OLEDs, based on novel, TADF polymers that can be readily processed from a solution. These polymers are based on the acridineâbenzophenone donorâacceptor motif as mainâchain TADF chromophores, linked by various conjugated and nonâconjugated spacer moieties. The authorsâ extensive spectroscopic and electronic analysis shows that in particular in case of alkyl spacers, the properties and performance of the monomeric TADF chromophores are virtually left unaffected by the polymerization. They present efficient solutionâprocessed OLEDs based on these TADF polymers, diluted in oligostyrene as a host. The devices based on the alkyl spacerâbased TADF polymers exhibit external quantum efficiencies (EQEs) â12%, without any outcouplingâenhancing measures. What's more, the EQE of these devices does not drop substantially upon diluting the polymer down to only ten weight percent of active material. In contrast, the EQE of devices based on the monomeric chromophore show significant losses upon dilution due to loss of charge percolation
Current and future economic burden of diabetes among working-age adults in Asia: conservative estimates for Singapore from 2010-2050
Abstract Background Diabetes not only imposes a huge health burden but also a large economic burden worldwide. In the working-age population, cost of lost productivity can far exceed diabetes-related medical cost. In this study, we aimed to estimate the current and future indirect and excess direct costs of diagnosed type 2 diabetes among the working-age population in Singapore. Methods A previously-published epidemiological model of diabetes was adapted to forecast prevalence among working-age patients with diagnosed type 2 diabetes in the absence of interventions. The current methodology of the American Diabetes Association was adopted to estimate the costs of diabetes for this population. Diabetes-related excess direct medical costs were obtained from a local cost study while indirect costs were calculated using the human capital approach applied to local labor force statistics. These cost were estimated conservatively from a societal perspective on a per patient basis and projected to the overall Singapore population from 2010 to 2050. Results In 2010, total economic costs per working-age patient were estimated to be US4,432-US7,791 (US12,756) in 2050, with the share of indirect costs rising to 65Â %. Simultaneous increases in prevalence imply that the total economic costs of diabetes for the entire working-age population will increase by 2.4 fold from US1,867 million in 2050. Conclusions By current projections, diabetes in Singapore represents a growing economic burden. Among the working-age population, the impact of productivity loss will become increasingly significant. Prevention efforts to reduce overall prevalence should also engage stakeholders outside the health sector who ultimately bear the indirect burden of disease
Imaging Transient Blood Vessel Fusion Events in Zebrafish by Correlative Volume Electron Microscopy
The study of biological processes has become increasingly reliant on obtaining high-resolution spatial and temporal data through imaging techniques. As researchers demand molecular resolution of cellular events in the context of whole organisms, correlation of non-invasive live-organism imaging with electron microscopy in complex three-dimensional samples becomes critical. The developing blood vessels of vertebrates form a highly complex network which cannot be imaged at high resolution using traditional methods. Here we show that the point of fusion between growing blood vessels of transgenic zebrafish, identified in live confocal microscopy, can subsequently be traced through the structure of the organism using Focused Ion Beam/Scanning Electron Microscopy (FIB/SEM) and Serial Block Face/Scanning Electron Microscopy (SBF/SEM). The resulting data give unprecedented microanatomical detail of the zebrafish and, for the first time, allow visualization of the ultrastructure of a time-limited biological event within the context of a whole organism
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