Effect of Oblique Light Incidence on Magnetooptical Properties of One-Dimensional Photonic Crystals

We have investigated the magnetooptical properties of one-dimensional magnetic photonic crystals for the case of oblique light incidence. We developed a theoretical model based on the transfer matrix approach. We found several new effects such as transmittance resonance peak shift versus external magnetic field and the Faraday effect dependence on the incidence angle.We discuss several possible one-dimensional magnetic photonic crystals applications for the optical devices

Personalized management of hypertensive patients: focus on prognostic biomarkers

Aim. To analyze level of circulating biomarkers of plasma vascular endothelial growth factor (VEGF) and tumor necrosis factor-α (TNF-α) during 3-month therapy with a fixed-dose combination of ramipril/indapamide (Konsilar-D24, AO Vertex, Russia), as well as to evaluate the antihypertensive efficacy of a fixed-dose combination of ramipril/indapamide (Konsilar-D24, JSC “Vertex”, Russia) in hypertensive (HTN) patients with type 2 diabetes (T2D).Material and methods. This prospective open-label study included 44 patients (aged 35 to 60 years) of both sexes with essential grade 1-2 HTN and concomitant compensated T2D, who did not reach the target blood pressure (BP) level using single or dual antihypertensive therapy, as well as patients who did not take antihypertensives. All patients included in the study initially underwent a set of standard clinical, laboratory and functional examinations in accordance with the clinical guidelines for the management of patients with HTN and T2D, as well as an assessment of the level of C-reactive protein, VEGF and TNF-α. Patients were monitored and treated with Konsilar-D24 for 3 months.Results. In 93,2% of patients, individual target BP values were achieved during the first 2-4 weeks of therapy with a fixed combination of ramipril/indapamide (Konsilar-D24). In the subsequent 3-month follow-up, the average daily BP level in all patients ranged from 129/79 mm Hg to 110/70 mm Hg. Three-month Konsilar-D24 therapy showed a decrease in microalbuminuria: the median values of microalbuminuria decreased by 2 times, and the decrease in the maximum recorded values reached 40% of the baseline. Decrease in mean TNF-α values after 3-month therapy with Konsilar-D24 was 33% of the baseline values, while the maximum recorded values during the specified period decreased by 17%. Decrease in median VEGF values after 3-month Konsilar-D24 therapy was 28%, while the maximum value decreased by 7%, the minimum — by 8%.Conclusion. Konsilar-D24 improves the prognosis in hypertensive patients not only by reducing BP to target values, but also by reducing the level of VEGF and TNF-α biomarkers that determine the progression of endothelial dysfunction, diabetic retinopathy, and microalbuminuria

Effects of classification context on categorization in natural categories

The patterns of classification of borderline instances of eight common taxonomic categories were examined under three different instructional conditions to test two predictions: first, that lack of a specified context contributes to vagueness in categorization, and second, that altering the purpose of classification can lead to greater or lesser dependence on similarity in classification. The instructional conditions contrasted purely pragmatic with more technical/quasi-legal contexts as purposes for classification, and these were compared with a no-context control. The measures of category vagueness were between-subjects disagreement and within-subjects consistency, and the measures of similarity based categorization were category breadth and the correlation of instance categorization probability with mean rated typicality, independently measured in a neutral context. Contrary to predictions, none of the measures of vagueness, reliability, category breadth, or correlation with typicality were generally affected by the instructional setting as a function of pragmatic versus technical purposes. Only one subcondition, in which a situational context was implied in addition to a purposive context, produced a significant change in categorization. Further experiments demonstrated that the effect of context was not increased when participants talked their way through the task, and that a technical context did not elicit more all-or-none categorization than did a pragmatic context. These findings place an important boundary condition on the effects of instructional context on conceptual categorization

Low-temperature tapered-fiber probing of diamond NV ensembles coupled to GaP microcavities

In this work we present a platform for testing the device performance of a cavity-emitter system, using an ensemble of emitters and a tapered optical fiber. This method provides high-contrast spectra of the cavity modes, selective detection of emitters coupled to the cavity, and an estimate of the device performance in the single- emitter case. Using nitrogen-vacancy (NV) centers in diamond and a GaP optical microcavity, we are able to tune the cavity onto the NV resonance at 10 K, couple the cavity-coupled emission to a tapered fiber, and measure the fiber-coupled NV spontaneous emission decay. Theoretically we show that the fiber-coupled average Purcell factor is 2-3 times greater than that of free-space collection; although due to ensemble averaging it is still a factor of 3 less than the Purcell factor of a single, ideally placed center.Comment: 15 pages, 6 figure

A robust, scanning quantum system for nanoscale sensing and imaging

Controllable atomic-scale quantum systems hold great potential as sensitive tools for nanoscale imaging and metrology. Possible applications range from nanoscale electric and magnetic field sensing to single photon microscopy, quantum information processing, and bioimaging. At the heart of such schemes is the ability to scan and accurately position a robust sensor within a few nanometers of a sample of interest, while preserving the sensor's quantum coherence and readout fidelity. These combined requirements remain a challenge for all existing approaches that rely on direct grafting of individual solid state quantum systems or single molecules onto scanning-probe tips. Here, we demonstrate the fabrication and room temperature operation of a robust and isolated atomic-scale quantum sensor for scanning probe microscopy. Specifically, we employ a high-purity, single-crystalline diamond nanopillar probe containing a single Nitrogen-Vacancy (NV) color center. We illustrate the versatility and performance of our scanning NV sensor by conducting quantitative nanoscale magnetic field imaging and near-field single-photon fluorescence quenching microscopy. In both cases, we obtain imaging resolution in the range of 20 nm and sensitivity unprecedented in scanning quantum probe microscopy

Feature integration in natural language concepts

Two experiments measured the joint influence of three key sets of semantic features on the frequency with which artifacts (Experiment 1) or plants and creatures (Experiment 2) were categorized in familiar categories. For artifacts, current function outweighed both originally intended function and current appearance. For biological kinds, appearance and behavior, an inner biological function, and appearance and behavior of offspring all had similarly strong effects on categorization. The data were analyzed to determine whether an independent cue model or an interactive model best accounted for how the effects of the three feature sets combined. Feature integration was found to be additive for artifacts but interactive for biological kinds. In keeping with this, membership in contrasting artifact categories tended to be superadditive, indicating overlapping categories, whereas for biological kinds, it was subadditive, indicating conceptual gaps between categories. It is argued that the results underline a key domain difference between artifact and biological concepts