Correlation plots of the Siberian Radioheliograph-Reference-Cited by-同舟云学术

Correlation plots of the Siberian Radioheliograph

Published:2017-04-17 Issue: Volume: Page:17-21
ISSN:2412-4737
Container-title:Solnechno-Zemnaya Fizika
language:en
Short-container-title:

Author:

Лесовой Сергей¹,Lesovoi Sergey²,Кобец Вероника¹,Kobets Veronika²

Affiliation:

1. Институт солнечно-земной физики СО РАН

2. Institute of Solar Terrestrial Physics SB RAS

Abstract

The Siberian Solar Radio Telescope [Grechnev et al., 2011] is now being upgraded. The upgrading is aimed at providing the aperture synthesis imaging in the frequency range 4–8 GHz [Lesovoi et al., 2011, 2014] instead of the single-frequency direct imaging due to the Earth rotation. The first phase of the upgrading is a 48-antenna array — Siberian Radioheliograph. One type of radioheliograph data represents correlation plots [badary.iszf.irk.ru/srhCorrPlot.php]. In evaluating the covariation of two-level signals, these plots are sums of complex correlations, obtained for different antenna pairs. Bearing in mind that correlation of signals from an antenna pair is related to a spatial frequency, we can say that each value of the plot is an integral over a spatial spectrum. Limits of the integration are defined by a task. Only high spatial frequencies are integrated to obtain dynamics of compact sources. The whole spectrum is integrated to reach maximum sensitivity. We show that the covariation of two-level values accurate to Van Vleck correction is a correlation coefficient of these values.

Publisher

Infra-M Academic Publishing House

Subject

Space and Planetary Science,Atmospheric Science,Geophysics

Reference10 articles.

1. Томпсон А.Р., Моран Дж.М., Свенсон Дж.У. Интерферометрия и синтез в радиоастрономии. М.: Физматлит, 2003. 634 с. , Benkevitch L.V., Rogers A.E.E., Lonsdale C.J., Cappallo R.J. Oberoi D., Erickson P.J., Baker K.A.V. Van Vleck correction generalization for complex correlators with multilevel quantization. 2016. URL: http://arxiv.org/abs/ 1608.04367v1 (accessed December 16, 2016).

2. Benkevitch L.V., Rogers A.E.E., Lonsdale C.J., et al. Van Vleck correction generalization for complex correlators with multilevel quantization. 2016. URL: http://arxiv.org/abs/ 1608.04367v1 (accessed December 16, 2016)., Grechnev V.V., Lesovoi S.V., Smolkov G.Ya., Krissinel B.B., Zandanov V.G., Altyntsev A.T., Kardapolova N.N., Sergeev R.Y., Uralov A.M., Maksimov V.P., Lubyshev B.I. The Siberian Solar Radio Telescope: The current state of the instrument, observations, and data. Solar Phys. 2003, vol. 216, iss. 1, pp. 239–272.

3. Grechnev V.V., Lesovoi S.V., Smolkov G.Ya., et al. The Siberian Solar Radio Telescope: The current state of the instrument, observations, and data // Solar Phys. 2003. V. 216, iss. 1. P. 239–272. , Kochanov A.A., Anfinogentov S.A., Prosovetsky D.V., Rudenko G.V., Grechnev V.V. Imaging of the solar atmosphere by the Siberian Solar Radio Telescope at 5.7 GHz with an enhanced dynamic range. Publications of the Astronomical Society of Japan. 2013, vol. 65, no. SP1, article id. 19, 12 p.

4. Kochanov A.A., Anfinogentov S.A., Prosovetsky D.V., et al. Imaging of the solar atmosphere by the Siberian Solar Radio Telescope at 5.7 GHz with an enhanced dynamic range // Publications of the Astronomical Society of Japan. 2013. V. 65, N SP1, article id. 19. 12 p., Lesovoi S.V., Altyntsev A.T., Ivanov E.F., Gubin A.V. The Multifrequency Siberian Radioheliograph. Solar Phys. 2012, vol. 280, iss. 2, pp. 651–661.

5. Lesovoi S.V., Altyntsev A.T., Ivanov E.F., Gubin A.V. The Multifrequency Siberian Radioheliograph // Solar Phys. 2012. V. 280, iss. 2. P. 651–661., Lesovoi S.V., Altyntsev A.T., Ivanov E.F., Gubin A.V. A 96-antenna radioheliograph. Res. Astron. Astrophys. 2014, vol. 14, iss. 7, рр. 864–868.

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