Анализ параметров активной фазированной антенной решетки радиотелескопа ГУРТ

Представлены методика расчета и результаты численного анализа параметров активной фазированной антенной решетки (АФАР) Гигантского украинского радиотелескопа (ГУРТ) декаметрового и метрового диапазонов волн, который сооружается в настоящее время вблизи г. Харькова на территории Радиоастрономической обсерватории им. С. Я. Брауде Радиоастрономического института Национальной академии наук Украины. Методика базируется на матричной теории антенных решеток, сочетающей в себе электродинамический подход к анализу решетки излучателей с методами теории многополюсников СВЧ для описания фидерной схемы АФАР. Приведены и проанализированы результаты численного расчета эффективной площади АФАР и коэффициента передачи, который в случае пассивной ФАР ассоциируется с КПД, в широком секторе сканирования луча в диапазоне частот 10- 80 МГц.Надаються методика розрахунку та результати числового аналізу параметрів активної фазованої антенної решітки (АФАР) Гігантського українського радіотелескопу (ГУРТ) декаметрового та метрового діапазонів хвиль, що наразі споруджується поблизу м. Харкова на території Радіоастрономічної обсерваторії ім. С. Я. Брауде Радіоастрономічного інституту Національної академії наук України. Методика базується на матричній теорії антенних решіток, що поєднує електродинамічний підхід до аналізу решітки випромінювачів з методами теорії багатополюсників НВЧ для опису фідерної схеми АФАР. Наведені та проаналізовані результати числового розрахунку ефективної площі АФАР та коефіцієнту передачі, що в разі пасивної ФАР асоціюється з ККД, у широкому секторі сканування променя в діапазоні частот 10 - 80 МГц.The calculation technique results of numerical analysis of parameters of active phased antenna array (APAA) of the Giant Ukrainian Radio Telescope (GURT) of decameter and meter wavelengths which is being built now nearby Kharkiv at the area of S. Ya. Braude Radio Astronomy Observatory of the Institute of Radio Astronomy of the National Academy of Sciences of Ukraine are presented. The technique is based on the matrix theory of antenna arrays which combines an electromagnetic approach to analysis of radiators array with the methods of microwave multiport theory for the APAA feed network description. The results of numerical calculation of the APAA effective area and its gain, which in case of passive array is associated with its efficiency, are given and analyzed for a wide scan range within 10 to 80 MHz

Negative Pressure Provides Simple and Stable Droplet Generation in a Flow-Focusing Microfluidic Device

Droplet microfluidics is an extremely useful and powerful tool for industrial, environmental, and biotechnological applications, due to advantages such as the small volume of reagents required, ultrahigh-throughput, precise control, and independent manipulations of each droplet. For the generation of monodisperse water-in-oil droplets, usually T-junction and flow-focusing microfluidic devices connected to syringe pumps or pressure controllers are used. Here, we investigated droplet-generation regimes in a flow-focusing microfluidic device induced by the negative pressure in the outlet reservoir, generated by a low-cost mini diaphragm vacuum pump. During the study, we compared two ways of adjusting the negative pressure using a compact electro-pneumatic regulator and a manual airflow control valve. The results showed that both types of regulators are suitable for the stable generation of monodisperse droplets for at least 4 h, with variations in diameter less than 1 µm. Droplet diameters at high levels of negative pressure were mainly determined by the hydrodynamic resistances of the inlet microchannels, although the absolute pressure value defined the generation frequency; however, the electro-pneumatic regulator is preferable and convenient for the accurate control of the pressure by an external electric signal, providing more stable pressure, and a wide range of droplet diameters and generation frequencies. The method of droplet generation suggested here is a simple, stable, reliable, and portable way of high-throughput production of relatively large volumes of monodisperse emulsions for biomedical applications

Dissolution and mixing of flavin mononucleotide in microfluidic chips for bioassay

Dissolution and mixing of flavin mononucleotide (FMN), which activates a luminescent reaction, were considered in various designs of microfluidic chip for pollution analysis of liquid samples. The aim was to determine the velocity mode of fluid flow ensured the uniform distribution of the FMN in the reaction chamber. Simulation of concentration distribution of FMN in various designs of microfluidic chips was conducted. It was shown that the passive mixing techniques based on the constant flow rate didn’t provide mixing of FMN in acceptable time (3 seconds). The most efficient mixing was achieved using variable flow rate with a gradually increasing frequency of oscillation

Towards biological quantity theory for nominal property metrology in polyenzymatic devices with living cells

Here we discuss the concepts of “biological quantity” and “nominal property” within the framework of the problem of biological measurements based on new specific results of biological analysis using a microfluidic platform and chips developed by our team earlier. It was shown that based on different microfluidic platforms it is possible to develop chips with a polyenzymatic bioluminescent system NAD(P)H:FMN-oxidoreductase-luciferase (Red + Luc), which can be used in various areas of biological analysis. Thus, disposable microfluidic chips with Red + Luc system suitable for field and indoor use were developed using continuous flow microfluidic platform. The use of droplet-based microfluidic platform allowed to develop microfluidic chips with Red + Luc system for long-term continuous measurements of water samples, for example, in places of waste disposal by industrial enterprises. The reference for comparing different biological quantities with each other in the proposed system was a photodetector, which converted non-numeric values and nominal properties recorded by a biological module Red + Luc into numerical variables. Such a reference was implemented as a portable luminometer based on silicon photomultiplier. The results allow to perform other biological measurements and to start the discussion of modern biological concepts in the language of biological measures