Formation of the microstructure of rapidly solidified alloys for the system Sn-Bi

The results of microstructural study of rapidly solidified Sn-Bi alloys obtained at the melt cooling rate of 105 K/s with the compositions of Sn-X wt. % Bi (X = 13, 20, 30, 43) are presented. Microstructural studies are carried out using scanning electron microscopy; a grain structure is analyzed by an electron backscatter diffraction technique. It is found out that the crystallization of all investigated alloys proceeds by a chemically partionless mechanism which results in the formation of a supersaturated solid solution of bismuth in a tin lattice with the original composition. Observations of the solid solution decomposition process at room temperature shows that decomposition proceeds by both continuous and discontinuous mechanisms in alloys with bismuth concentration not higher than the limit of solubility of bismuth in a tin (20 wt. %). Needle-like coherent bismuth inclusions are formed in the volume of a tin grain as a result of continuous decomposition. Discontinuous decomposition rate increases with the increasing concentration of bismuth in the alloy. In hipoeutectic alloys with bismuth concentration higher than the solubility limit, decomposition occurs by discontinuous mechanism. Complete decomposition proceeds by several stages and results in formation of areas with different degrees of microstructure fineness

Evolution of the local superconducting density of states in ErRh4_4B4_{4} close to the ferromagnetic transition

We present local tunneling spectroscopy experiments in the superconducting and ferromagnetic phases of the reentrant superconductor ErRh$_4$B$_{4}$. The tunneling conductance curves jump from showing normal to superconducting features within a few mK close to the ferromagnetic transition temperature, with a clear hysteretic behavior. Within the ferromagnetic phase, we do not detect any superconducting correlations. Within the superconducting phase we find a peculiar V-shaped density of states at low energies, which is produced by the magnetically modulated phase that coexists with superconductivity just before ferromagnetism sets in.Comment: 5 pages, 4 figure

Superconducting decay length in a ferromagnetic metal

The complex decay length xi characterizing penetration of superconducting correlations into a ferromagnet due to the proximity effect is studied theoretically in the frame of the linearized Eilenberger equations. The real part xi_1 and imaginary part xi_2 of the decay length are calculated as functions of exchange energy and the rates of ordinary, spin flip and spin orbit electronic scattering in a ferromagnet. The lengths xi_1,2 determine the spatial scales of, respectively, decay and oscillation of a critical current in SFS Josephson junctions in the limit of large distance between superconducting electrodes. The developed theory provides the criteria of applicability of the expressions for xi_1 and xi_2 in the dirty and the clean limits which are commonly used in the analysis of SF hybrid structures.Comment: 5 pages, 3 figure

Scattering by magnetic and spin-orbit impurities and the Josephson current in superconductor-ferromagnet-superconductor junctions

We analyze the Josephson current in a junction consisting of two superconductors (S) and a ferromagnetic layer (F) for arbitrary impurity concentration. In addition to non-magnetic impurities, we consider also magnetic ones and spin-orbit scattering. In the limit of weak proximity effect we solve the linearized Eilenberger equation and derive an analytical expression for the Josephson critical current valid in a broad range of parameters. This expression enables us to obtain not only known results in the dirty and clean limits but also in a intermediate region of the impurity concentration, which may be very important for comparison with experimental data.Comment: revised versio

Peculiarities of the stochastic motion in antiferromagnetic nanoparticles

Antiferromagnetic (AFM) materials are widely used in spintronic devices as passive elements (for stabilization of ferromangetic layers) and as active elements (for information coding). In both cases switching between the different AFM states depends in a great extent from the environmental noise. In the present paper we derive the stochastic Langevin equations for an AFM vector and corresponding Fokker-Planck equation for distribution function in the phase space of generalised coordinate and momentum. Thermal noise is modeled by a random delta-correlated magnetic field that interacts with the dynamic magnetisation of AFM particle. We analyse in details a particular case of the collinear compensated AFM in the presence of spin-polarised current. The energy distribution function for normal modes in the vicinity of two equilibrium states (static and stationary) in sub- and super-critical regimes is found. It is shown that the noise-induced dynamics of AFM vector has pecuilarities compared to that of magnetisation vector in ferromagnets.Comment: Submitted to EPJ ST, presented at the 4-th Conference on Statistical Physics, Lviv, Ukraine, 201

Role of humoral markers in the pathogenesis of heart failure with preserved ejection fraction in patients with non-obstructive coronary artery disease

Aim. To study the role of molecular biomarkers potentially influencing the formation and progression of heart failure (HF) with preserved ejection fraction (HFpEF) in non-obstructive coronary artery disease (CAD).Material and methods. We examined 48 patients with newly diagnosed HFpEF against the background of non-obstructive CAD. Group 1 (n=31) included patients with class I-II HF and group 2 (n=17) included patients with class III HF; the control group consisted of patients without heart failure (n=17). The content of NT-proBNP and sST2, diastolic dysfunction and coronary flow reserve parameters were assessed.Results. The content of NT-proBNP in patients of group 1 was 45% higher than in group 2 (p<0,001). The mean levels of sST2 did not exceed the reference values and significantly exceeded the control group (p<0,001). Coronary flow reserve (CFR) decreased (p<0,001) depending on the severity of HF. Negative associations of sST2 levels with LVEF, septal e’ and CFR were revealed, as well as NT-proBNP with CFR.Conclusion. HFpEF in non-obstructive CAD is triggered due to progressive impairment of endothelial function, which affects the decrease in coronary and myocardial flow reserves, diastolic function, hyperproduction of humoral factors that initiate perivascular fibrosis and apoptosis of cardiomyocytes

Coronary flow reserve in patients with heart failure with preserved ejection fraction

Aim. To study the parameters of myocardial blood flow (MBF) and coronary flow reserve (CFR) in patients with heart failure (HF) with preserved ejection fraction and evaluate their relationship with the severity of HF.Material and methods. The study included 47 patients (men, 68,7%) aged 65,0 (58,0; 72,0) years with left ventricular ejection fraction of 62 (56; 67)% and coronary artery stenosis <50%. Serum levels of N-terminal pro-brain natriuretic peptide (NT-proBNP) were assessed by enzyme immunoassay. MBF and CFR values were assessed using cardiac single photon emission computed tomography.Results. Depending on NT-proBNP levels, the patients were divided into 2 groups (p<0,001): the 1st group included (n=15) patients with NT-proBNP <125 pg/ml (58,2 [41,6; 70,7] pg/ml), while in the 2nd group (n=32) — with NT-proBNP ≥125 pg/ml (511,4 [249,8; 1578,1] pg/ml). The group of patients with high NTproBNP levels was characterized by higher values (by 33,8%, p=0,0001) of resting MBF and reduced CFR (by 14,7%, p=0,001) compared with patients with normal NT-proBNP level: resting MBF — 0,65 (0,44; 0,79) vs 0,43 (0,30; 0,58) ml/min/g; CFR — 2,21 (1,52; 2,83) vs 2,59 (2,47; 3,05), respectively. At the same time, MBF at stress did not differ between the groups. The relationship of NTproBNP levels with global CFR (p=0,012; r=-0,339) and MBF at rest (p=0,012; r=0,322) was established. A stepwise decrease in global CFR was revealed depending on the NYHA class as follows (p<0,001): 2,79 (2,52; 2,93); 1,8 (1,55; 2,08); 1,31 (1,23; 1,49) — for class I, II, and III, respectively.Conclusion. A decrease in CFR in patients with HF with preserved ejection fraction indicates impaired myocardial blood supply, which, in this group of patients, is associated with microcirculatory changes. At the same time, the severity of MBF alterations is closely related to HF severity

Josephson current in diffusive multilayer superconductor/ferromagnet/superconductor junctions

We calculate the Josephson current in a diffusive superconductor/ferromagnet/superconductor junction, where the ferromagnetic region contains multiple layers (or domains). In particular, we study a configuration where there are two layers with an arbitrary relative in-plane magnetization orientation, and also include non-ideal interfaces and arbitrary spin-flip scattering. We study the 0-$\pi$ oscillations of the critical current for varying junction width $d$, and find that the $\pi$ state vanishes entirely when the magnetic misorientation angle of the two layers exceeds a critical angle $\phi_c$. While $\phi_c \to \pi/2$ in the limit of high temperatures, we find that $\phi_c$ becomes smaller than $\pi/2$ at low temperatures compared to $T_c$. 0-$\pi$ oscillations are also found when varying the temperature or the misorientation angle for fixed values of $d$, and we present phase diagrams that show qualitatively the conditions for the appearance of such oscillations. We also point out how one may obtain significant enhancement of the critical current in such a system by switching the magnetization for selected values of the junction width $d$, and comment on the necessary conditions for establishing a long range triplet Josephson effect.Comment: 12 pages, 11 figures. Accepted for publication in Phys. Rev. B. High-quality figures will be available in the published versio

Separation of Oligosaccharides from Lotus Seeds via Medium-pressure Liquid Chromatography Coupled with ELSD and DAD

peer-reviewedLotus seeds were identified by the Ministry of Public Health of China as both food and medicine. One general function of lotus seeds is to improve intestinal health. However, to date, studies evaluating the relationship between bioactive compounds in lotus seeds and the physiological activity of the intestine are limited. In the present study, by using medium pressure liquid chromatography coupled with evaporative light-scattering detector and diode-array detector, five oligosaccharides were isolated and their structures were further characterized by electrospray ionization-mass spectrometry and gas chromatography-mass spectrometry. In vitro testing determined that LOS3-1 and LOS4 elicited relatively good proliferative effects on Lactobacillus delbrueckii subsp. bulgaricus. These results indicated a structure-function relationship between the physiological activity of oligosaccharides in lotus seeds and the number of probiotics applied, thus providing room for improvement of this particular feature. Intestinal probiotics may potentially become a new effective drug target for the regulation of immunity