Mykhaylo Palamar scite author profile

Mykhaylo Palamar

5Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

Ternopil Ivan Pului National Technical University

Publications

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Method of constructing the primary error matrix of the RT-32 radio telescope in an automated mode

Vlasenko¹,

Mamarev²,

Ozhynsky³

et al. 2021

Kosm. nauka tehnol.

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2020 was the year of introduction of the Ukrainian new generation radio telescope RT-32 into the experimental operation. The test results of maser hydrogen and hydroxyl lines obtained during the experimental operation confirmed the correctness of the calculations and technological solutions of Ukrainian scientists and manufacturers Consortium. One of the further development directions of RT-32 as a radio astronomical research tool is to increase the accuracy of pointing the radio telescope to radio astronomical sources. One of the further development directions of RT-32 as a radio astronomical research tool is to increase the accuracy of pointing the radio telescope to astronomical radio sources. The latter is to be achieved by automating the processes of guidance error matrices formation and their integration during the observations. The formation of such a matrix presupposes taking into account the structural features of the antenna system and weather condition. The paper presents the results of geodetic measurements of the antenna system surface on different elevation angle, construction of the 3D model of the reflector. The method of constructing the error matrix, which at this stage of research provides the necessary simplicity of perception and interpretation of the obtained results by the human operator, is proposed. The results of the developed method verification using reference radio sources are given and the error matrices of elevation and azimuth pointing (dimension 81x81 elements) obtained with the use of said method are presented. The introduction of the results presented in the article into the radio telescope control system allowed increasing the accuracy of RT-32 radio telescope pointing in the C- and K- bands to the value of ~36″. This work partially was supported by Latvian Council of Science project "Joint Latvian-Ukrainian study of peculiar radio galaxy “Perseus A” in radio and optical bands. Nr: lzp-2020/2-0121".

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Creating the Rt-32 Radio Telescope on the Basic of Mark-4b Antenna System. 1. Modernization Project and First Results

Ulyanov

Reznichenko

Захаренко

et al. 2019

Radio phys. radio astron.

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Creating the Rt-32 Radio Telescope on the Basic of Mark-4b Antenna System. 2. Estimation of the Possibility for Making Spectral Observations of Radio Astronomical Objects

Antyufeyev

Korolev

Patoka

et al. 2019

Radio phys. radio astron.

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ÑÎÇÄÀÍÈÅ ÐÀÄÈÎÒÅËÅÑÊÎÏÀ ÐÒ-32 ÍÀ ÁÀÇÅ ÀÍÒÅÍÍÎÉ ÑÈÑÒÅÌÛ MARK-4B. 2. ÎÖÅÍÊÀ ÂÎÇÌÎAEÍÎÑÒÈ ÏÐÎÂÅÄÅÍÈß ÑÏÅÊÒÐÀËÜÍÛÕ ÍÀÁËÞÄÅÍÈÉ ÐÀÄÈÎÀÑÒÐÎÍÎÌÈ×ÅÑÊÈÕ ÎÁÚÅÊÒÎÂ Предмет и цель работы: Исследуются технические возможности антенной системы МАRK-4В для ее дальнейшего использования в качестве 32-метрового радиотелескопа (РТ-32) и проведения одновременных спектральных радиоастрономических наблюдений в C и K диапазонах. Методы и методология: В исследованиях используются результаты наших собственных измерений, проведенных на антенной системе МАRK-4В, экспертные оценки, открытые источники информации, техническая документация антенной системы МАRK-4В, методы радиоастрономии, методы компьютерного моделирования и сравнительный анализ основных параметров данной антенны с аналогичными параметрами действующих радиотелескопов мирового уровня. Комбинирование разных подходов позволяет определить требования к приемной системе, к параметрам спектроанализатора, методикам калибровки и оптимизировать процедуры модернизации антенной системы МАRK-4В. Результаты: Определены основные параметры радиотелескопа, необходимые для проведения спектральных наблюдений в C и K диапазонах. Уточнены возможности системы наведения. Для рабочего диапазона частот антенной системы МАRK-4В рассмотрены основные доступные для исследований спектральные линии различных молекул. Приведен перечень переходов, излучающих наиболее интенсивные спектральные линии. Сформулированы радиоастрономические задачи, которые возможно решать с использованием МАRK-4В в режиме спектральных наблюдений в C и K диапазонах.

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The Rt-32 Radio Telescope Construction Based on the Mark-4b Antenna System. 3. Local Oscillators and Self-Noise of the Receiving System

Ulyanov

Захаренко

Alekseev

et al. 2020

Radio phys. radio astron.

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Design source errors analysis in the angle measure devices to the precision

Palamar¹,

Nakonetchnyi²,

Apostol³

et al. 2019

Visnyk TNTU

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