RT-13 VLBI Receivers
Труды ИПА РАН, вып. 55, 36–40 (2020)
DOI: 10.32876/ApplAstron.55.36-40
Ключевые слова: VLBI, VGOS, RT-13, small dish, fast radio telescopes, receivers, tri-band, S/X/Ka, wideband
Информация о статье Текст статьиАннотация
This article gives a detailed overview of the radioastronomic receivers for the Institute of Applied Astronomy of the Russian Academy of Science (IAA RAS) RT-13 fast radio telescopes that are intended for expanding the capabilities of the Russian VLBI network Quasar for continuous observations and joint operations with the global VGOS network. For work with different VGOS stations, IAA RAS has developed two types of receivers: a tri-band (S/X/Ka bands, circular polarizations) and a wideband receiver (3–16 GHz, linear polarizations). The article provides a summary of the development process, schematic diagrams, technical data, and design features. The results of RT-13 observations in single-dish mode and VLBI mode for both types of the receivers are presented. The Russian VLBI complex Quasar was improved significantly by construction of three fast RT-13 telescopes with two types of swappable receivers per each station enabling it to join VGOS networks and obtain necessary observation data.
Цитирование
A. A. Evstigneev, V. K. Chernov, O. Eu. Evstigneeva, I. A. Ipatova, Eu. Yu. Khvostov, A. P. Lavrov, I. A. Pozdnyakov, Yu. V. Vekshin, M. B. Zotov. RT-13 VLBI Receivers // Труды ИПА РАН. — 2020. — Вып. 55. — С. 36–40.
@article{evstigneev2020,
abstract = {This article gives a detailed overview of the radioastronomic receivers for the Institute of Applied Astronomy of the Russian Academy of Science (IAA RAS) RT-13 fast radio telescopes that are intended for expanding the capabilities of the Russian VLBI network Quasar for continuous observations and joint operations with the global VGOS network.
For work with different VGOS stations, IAA RAS has developed two types of receivers: a tri-band (S/X/Ka bands, circular polarizations) and a wideband receiver (3–16 GHz, linear polarizations). The article provides a summary of the development process, schematic diagrams, technical data, and design features. The results of RT-13 observations in single-dish mode and VLBI mode for both types of the receivers are presented.
The Russian VLBI complex Quasar was improved significantly by construction of three fast RT-13 telescopes with two types of swappable receivers per each station enabling it to join VGOS networks and obtain necessary observation data.},
author = {A.~A. Evstigneev and V.~K. Chernov and O.~Eu. Evstigneeva and I.~A. Ipatova and Eu.~Yu. Khvostov and A.~P. Lavrov and I.~A. Pozdnyakov and Yu.~V. Vekshin and M.~B. Zotov},
doi = {10.32876/ApplAstron.55.36-40},
issue = {55},
journal = {Труды ИПА РАН},
keyword = {VLBI, VGOS, RT-13, small dish, fast radio telescopes, receivers, tri-band, S/X/Ka, wideband},
pages = {36--40},
title = {RT-13 VLBI Receivers},
url = {http://iaaras.ru/library/paper/2075/},
year = {2020}
}
TY - JOUR
TI - RT-13 VLBI Receivers
AU - Evstigneev, A. A.
AU - Chernov, V. K.
AU - Evstigneeva, O. Eu.
AU - Ipatova, I. A.
AU - Khvostov, Eu. Yu.
AU - Lavrov, A. P.
AU - Pozdnyakov, I. A.
AU - Vekshin, Yu. V.
AU - Zotov, M. B.
PY - 2020
T2 - Труды ИПА РАН
IS - 55
SP - 36
AB - This article gives a detailed overview of the radioastronomic
receivers for the Institute of Applied Astronomy of the Russian
Academy of Science (IAA RAS) RT-13 fast radio telescopes that are
intended for expanding the capabilities of the Russian VLBI network
Quasar for continuous observations and joint operations with the
global VGOS network. For work with different VGOS stations, IAA RAS
has developed two types of receivers: a tri-band (S/X/Ka bands,
circular polarizations) and a wideband receiver (3–16 GHz, linear
polarizations). The article provides a summary of the development
process, schematic diagrams, technical data, and design features. The
results of RT-13 observations in single-dish mode and VLBI mode for
both types of the receivers are presented. The Russian VLBI complex
Quasar was improved significantly by construction of three fast RT-13
telescopes with two types of swappable receivers per each station
enabling it to join VGOS networks and obtain necessary observation
data.
DO - 10.32876/ApplAstron.55.36-40
UR - http://iaaras.ru/library/paper/2075/
ER -