THE UNIVERSE RADIO EMISSION AT DECAMETER WAVELENGTHS (by the materials of a series of works awarded by the State Prize of Ukraine in the field of science and technology in 2018)

PACS numbers: 95.55.Jz, 95.30.-k, 95.55.-nPurpose: The abstract presentation and review of the works of the last 40 years in the field of low-frequency radio astronomy and a summary of their main scientific and technical results, which have been awarded the State Prize of Ukraine in the field of sci...

Повний опис

Збережено в:
Бібліографічні деталі
Дата:2019
Автори: Konovalenko, O. O., Zakharenko, V. V., Kalinichenko, M. M., Melnik, V. M., Sidorchuk, M. A., Stanislavsky, A. A., Stepkin, S. V., Ulyanov, O. M.
Формат: Стаття
Мова:rus
Опубліковано: Видавничий дім «Академперіодика» 2019
Теми:
Онлайн доступ:http://rpra-journal.org.ua/index.php/ra/article/view/1305
Теги: Додати тег
Немає тегів, Будьте першим, хто поставить тег для цього запису!
Назва журналу:Radio physics and radio astronomy

Репозитарії

Radio physics and radio astronomy
Опис
Резюме:PACS numbers: 95.55.Jz, 95.30.-k, 95.55.-nPurpose: The abstract presentation and review of the works of the last 40 years in the field of low-frequency radio astronomy and a summary of their main scientific and technical results, which have been awarded the State Prize of Ukraine in the field of science and technology for 2018.Design methodology/approach: Unique domestic tools and methods of observation were used for complex long-term experimental and theoretical studies of a large sample of the Universe objects in the range of decameter–meter radio waves.Findings: High-informative capabilities of low-frequency (8 to 80 MHz) radio astronomy studies of the Solar System, Galaxy and Metagalaxy, which have allowed one to detect and study new astrophysical objects and phenomena, to build and refine their models and mechanisms of cosmic radio emission are shown.Conclusions: Based on the creation, modernization and use of the world-largest decameter–meter wave radio telescopes UTR-2, URAN, GURT, a large amount of priority scientific and technical results and fundamental discoveries have been obtained in recent decades. New objects and phenomena, radio emission mechanisms, previously unknown energy, spatial, frequency, time, and polarization parameters of signals, which change in an unexpectedly large range of values have been discovered. The means, methods and results of domestic radio astronomy are well known and recognized in the scientific world, they are in-dispensable, fully demanded and actively used in international studies. The presented cycle of works, the obtained results and the award of the State Prize of Ukraine in the field of science and technology confirm and develop the priority of Ukraine in one of the most relevant areas of modern astronomical science – low-frequency radio astronomy.Key words: The Universe, low-frequency radio astronomy, radio telescope, Solar system, Galaxy, MethagalaxyManuscript submitted 04.02.2019Radio phys. radio astron. 2019, 24(1):  3-43REFERENCES1. KONOVALENKO, A. A., 2005. Low- Frequency Radio Astronomy Prospects. Radio Phys. Radio Astron. vol. 10, special is., pp. S86–S114. (in Russian).2. LECACHEUX, A., KONOVALENKO, A. A. and RUCKER, H. O., 2004. Using large radio telescopes at decameter wavelength. Planet. Space Sci. vol. 52, is. 15, pp. 1357–1374. DOI: https://doi.org/10.1016/j.pss.2004.09.0063. KONOVALENKO, A. A., RUCKER, H. O., LECACHEUX, A., MEL’NIK, V. N., FALKOVICH, I. S., KALINICHENKO, N. N., OLYAK, M. R., MEGN, A. V., RASHKOVSKIJ, S. L., SHEPELEV, V. A., STEPKIN, S. V., MUHA, D. V., SIDORCHUK, M. A., UL’YANOV, O. M., THIDE, B., TOKAREV, YU V., KARASHTIN, A. N., KOSHEVOJ, V. V., LOZYNSKIJ, A. B. and BRAZHENKO, A. I., 2006. Utilizing existing decameter radio telescopes as pathfinders towards LOFAR- LWA- LOIS science and technology. In: H. O. RUCKER, W. S. KURTH and G. MANN, eds. Planetary Radio Emissions VI, Proceedings of the 6th International Workshop. Vienna, Austria, April 20-22, 2005. Vienna: Austrian Academy of Sciences Press, pp. 507–518.4. KONOVALENKO, A., SODIN, L., ZAKHARENKO, V., ZARKA, P., ULYANOV, O., SIDORCHUK, M., STEPKIN, S., TOKARSKY, P., MELNIK, V., KALINICHENKO, N., STANISLAVSKY, A., KOLIADIN, V., SHEPELEV, V., DOROVSKYY, V., RYABOV, V., KOVAL, A., BUBNOV, I., YERIN, S., GRIDIN, A., KULISHENKO, V., REZNICHENKO, A., BORTSOV, V., LISACHENKO, V., REZNIK, A., KVASOV, G., MUKHA, D., LITVINENKO, G., KHRISTENKO, A., SHEVCHENKO, V. V., SHEVCHENKO, V. A., BELOV, A., RUDAVIN, E., VASYLIEVA, I., MIROSHNICHENKO, A., VASILENKO, N., OLYAK, M., MYLOSTNA, K., SKORYK, A., SHEVTSOVA, A., PLAKHOV, M., KRAVTSOV, I., VOLVACH, Y., LYTVINENKO, O., SHEVCHUK, N., ZHOUK, I., BOVKUN, V., ANTONOV, A., VAVRIV, D., VINOGRADOV, V., KOZHIN, R., KRAVTSOV, A., BULAKH, E., KUZIN, A., VASILYEV, A., BRAZHENKO, A., VASHCHISHIN, R., PYLAEV, O., KOSHOVYY, V., LOZINSKY, A., IVANTYSHIN, O., RUCKER, H. O., PANCHENKO, M., FISCHER, G., LECACHEUX, A., DENIS, L., COFFRE, A., GRIEßMEIER, J.-M., TAGGER, M., GIRARD, J., CHARRIER, D., BRIAND, C. and MANN, G., 2016. The modern radio astronomy network in Ukraine: UTR-2, URAN and GURT. Exp. Astron. vol. 42, is. 1, pp. 1 1–48. DOI: https://doi.org/10.1007/s10686-016-9498-x5. KONOVALENKO, A. A., YERIN, S. M., BUBNOV, I. M., TOKARSKY, P. L., ZAKHARENKO, V. V., ULYANOV, O. M., SIDORCHUK, M. A., STEPKIN, S. V., GRIDIN, A. O., KVASOV, G. V., KOLIADIN, V. L., MELNIK, V. M., DOROVSKYY, V. V., KALINICHENKO, M. M., LITVINENKO, G. V., ZARKA, P., DENIS, L., GIRARD, J., RUCKER, H. O., PANCHENKO, M., STANISLAVSKY, A. A., KHRISTENKO, O. D., MUKHA, D. V., REZNICHENKO, O. M., LISACHENKO, V. M., BORTSOV, V. V., BRAZHENKO, A. I., VASYLIEVA, I. Y., SKORYK, A. O., SHEVTSOVA, A. I. and MYLOSTNA, K. Y., 2016. Astrophysical studies with small low-frequency radio telescopes of new generation. Radio Phys. Radio Astron. vol. 21, is. 2, pp. 83–131. DOI: https://doi.org/10.15407/rpra21.02.0836. ZAKHARENKO, V., KONOVALENKO, A., ZARKA, P., ULYANOV, O., SIDORCHUK, M., STEPKIN, S., KOLIADIN, V., KALINICHENKO, N., STANISLAVSKY, A., DOROVSKYY, V., SHEPELEV, V., BUBNOV, I., YERIN, S., MELNIK, V., KOVAL, A., SHEVCHUK, N., VASYLIEVA, I., MYLOSTNA, K., SHEVTSOVA, A., SKORYK, A., KRAVTSOV, I., VOLVACH, Y., PLAKHOV, M., VASILENKO, N., VASYLKIVSKY, I. Y., VAVRIV, D., VINOGRADOV, V., KOZHIN, R., KRAVTSOV, A., BULAKH, E., KUZIN, A., VASILYEV, A., RYABOV, V., REZNICHENKO, A., BORTSOV, V., LISACHENKO, V., KVASOV, G., MUKHA, D., LITVINENKO, G., BRAZHENKO, A., VASHCHISHIN, R., PYLAEV, O., KOSHOVYY, V., LOZINSKY, A., IVANTYSHYN, O., RUCKER, H. O., PANCHENKO, M., FISCHER, G., LECACHEUX, A., DENIS, L., COFFRE, A. and GRIEßMEIER, J.-M., 2016. Digital Receivers for Low-Frequency Radio Telescopes UTR-2, URAN, GURT. J. Astron. Instrum. vol. 5, is. 4, id. 1641010. DOI: https://doi.org/10.1142/S22511717164101057. KONOVALENKO, A. A., FALKOVICH, I. S., RUCKER, H. O., LECACHEUX, A., ZARKA, P., KOLIADIN, V. L., ZAKHARENKO, V. V., STANISLAVSKY, A. A., MELNIK, V. N., LITVINENKO, G. V., GRIDIN, A. A., BUBNOV, I. N., KALINICHENKO, N. N., REZNIK, A. P., SIDORCHUK, M. A., STEPKIN, S. V., MUKHA, D. V., NIKOLAJENKO, V. S., KARLSSON, R. and THIDE, B., 2011. New antennas and methods for the low frequency stellar and planetary radio astronomy. In: H. O. RUCKER, W. S. KURTH, P. LOUARN and G. FISCHER, eds. Planetary Radio Emissions VII, Proceedings of the 7th International Workshop. Vienna, Austria, September 15-17, 2010. Vienna: Austrian Academy of Sciences Press, pp. 521–531. DOI: https://doi.org/10.1553/PRE7s5218. ZARKA, P., FARRELL, W., FISCHER, G. and KONOVALENKO, A., 2008. Ground-based and space-based radio observations of planetary lightning. Space Sci. Rev. vol. 137, is. 1, pp. 257–269. DOI: https://doi.org/10.1007/s11214-008-9366-89. KONOVALENKO, A. A., STANISLAVSKY, A. A., RUCKER, H. O., LECACHEUX, A., MANN, G., BOUGERET, J.-L., KAISER, M. L., BRIAND, C., ZARKA, P., ABRANIN, E. P., DOROVSKY, V. V., KOVAL, A. A., MEL’NIK, V. N., MUKHA, D. V. and PANCHENKO, M., 2013. Synchronized observations by using the STEREO and the largest ground-based decametre radio telescope. Exp. Astron. vol. 36, is. 1-2, pp. 137–154. DOI: https://doi.org/10.1007/s10686-012-9326-x10. EL’NIK, V. N., KONOVALENKO, A. A., ABRANIN, E. P., DOROVSKYY, V. V., STANISLAVSKY, A. A., RUCKER, H. O. and LECACHEUX, A., 2005. Solar sporadic radio emission in the decametre waveband. Astron. Astrophys. Trans. vol. 24, is. 5, pp. 391–401. DOI: https://doi.org/10.1080/1055679060056885411. MEL’NIK, V. N., KONOVALENKO, A. A., RUCKER, H. O., STANISLAVSKY, A. A., ABRANIN, E. P., LECACHEUX, A., MANN, G., WARMUTH, A., ZAITSEV, V. V., BOUDJADA, M. Y., DOROVSKII, V. V., ZAHARENKO, V. V., LISACHENKO, V. N. and ROSOLEN, C., 2004. Observations of solar type II bursts at frequencies 10–30 MHz. Sol. Phys. vol. 222, is. 1, pp. 151–166. DOI: https://doi.org/10.1023/B:SOLA.0000036854.66380.a412. MELNIK, V. N., SHEVCHUK, N. V., KONOVALENKO, A. A., RUCKER, H. O., DOROVSKYY, V. V., POEDTS, S. and LECACHEUX, A., 2014. Solar Decameter Spikes. Sol. Phys. vol. 289, is. 5, pp. 1701–1714. DOI:https://doi.org/10.1007/s11207-013-0434-113. BRIAND, C., ZASLAVSKY, A., MAKSIMOVIC, M., ZARKA, P., LECACHEUX, A., RUCKER, H. O., KONOVALENKO, A. A., ABRANIN, E. P., DOROVSKY, V. V., STANISLAVSKY, A. A. and MEL’NIK, V. N., 2008. Faint solar radio structures from decametric observations. Astron. Astrophys. vol. 490, no. 1, pp. 339–344. DOI:https://doi.org/10.1051/0004-6361:20080984214. STANISLAVSKY, A. A., KOVAL, A. A. and KONOVALENKO, A. A., 2013. Low-frequency heliographic observations of the quiet Sun corona. Astron. Nachr. vol. 334, is. 1, pp. 1086–1092. DOI: https://doi.org/10.1002/asna.20121183915. KOVAL, A. A., STANISLAVSKY, A. A., CHEN, Y., FENG, S. W., KONOVALENKO, A. A. and VOLVACH, YA. S., 2016. Decameter stationary type IV burst in imaging observations on the 6th of September 2014. Astrophys. J. vol. 826, is. 2, id. A125. DOI: https://doi.org/10.3847/0004-637X/826/2/12516. KALINICHENKO, N. N., FALKOVICH, I. S., KONOVALENKO, A. A. and BRAZHENKO, A. I., 2013. Separation of interplanetary and ionospheric scintillations of cosmic sources at decameter wavelengths. Radio Phys. Radio Astron. vol. 18, is. 3, pp. 210–219. (in Russian).17. KALINICHENKO, N. N., KONOVALENKO, A. A., BRAZHENKO, A. I. and SOLOV’EV, V. V., 2013. 2011 February 15 CME in the interplanetary medium by observations of radio source scintillations at the decameter wavelengths. Radio Phys. Radio Astron. vol. 18, is. 4, pp. 301–308. (in Russian).18. RYABOV, V. B., ZARKA, P., HESS, S., KONOVALENKO, A., LITVINENKO, G., ZAKHARENKO, V., SHEVCHENKO, V. A. and CECCONI, B., 2014. Fast and slow frequency-drifting millisecond bursts in Jovian decametric radio emissions. Astron. Astrophys. vol. 568, id. A53. DOI: https://doi.org/10.1051/0004-6361/20142392719. IMAI, M., LECACHEUX, A., CLARKE, T. E., HIGGINS, C. A., PANCHENKO, M., DOWELL, J., IMAI, K., BRAZHENKO, A. I., FRANTSUZENKO, A. V. and KONOVALENKO, A. A., 2016. The beaming structures of Jupiter’s decametric common S-bursts observed from LWA1, NDA, and URAN2 radio telescopes. Astrophys. J. vol. 826, no 2, id. 176. DOI: 10.3847/0004-637X/826/ 2/17620. KONOVALENKO, A. A., KALINICHENKO, N. N., RUCKER, H. O., LECACHEUX, A., FISCHER, G., ZARKA, P., ZAKHARENKO, V. V., MYLOSTNA, K. Y., GRIEßMEIER, J.-M., ABRANIN, E. P., FALKOVICH, I. S., SIDORCHUK, K. M., KURTH, W. S., KAISER, M. L. and GURNETT, D. A., 2013. Earliest recorded ground-based decameter wavelength observations of Saturn’s lightning during the giant E-storm detected by Cassini spacecraft in early 2006. Icarus. vol. 224, no. 1, pp. 14–23. DOI: https://doi.org/10.1016/j.icarus.2012.07.02421. ZAKHARENKO, V., MYLOSTNA, C., KONOVALENKO, A., ZARKA, P., FISCHER, G., GRIEßMEIER, J.–M., LITVINENKO, G., RUCKER, H., SIDORCHUK, M., RYABOV, B., VAVRIV, D., RYABOV, V., CECCONI, B., COFFRE, A., DENIS, L., FABRICE, C., PALLIER, L., SCHNEIDER, J., KOZHYN, R., VINOGRADOV, V., MUKHA, D., WEBER, R., SHEVCHENKO, V. and NIKOLAENKO, V., 2012. Ground–based and spacecraft ob- servations of lightning activity on Saturn. Planet. Space. Sci. vol. 61, is. 1, pp. 53–59. DOI:https://doi.org/10.1016/j.pss.2011.07.02122. FALKOVICH, I. S. and KALINICHENKO, N. N., 1999. Measurement of the parameters of the ionosphere by the observed polarization and trajectory characteristics of the decameter radio signal. Geomag. Aeron. vol. 39, is. 4, pp. 141–144. (in Russian).23. SODIN, L. G., FALKOVICH, I. S. and KALINICHENKO, N. N., 1996. The use of surface and spatial waves for measuring the soil permittivity and the correction of the ground-based antenna characteristics. Radiotekhnika i Elektronira. vol. 41, is.10, pp. 1191–1196. (in Russian).24. VASILENKO, N. M., MUKHA, D. V., SIDORCHUK, M. A. and SIDORCHUK, K. M., 2005. Making and Processing the Northern Sky Radio Maps Based on the Continuum Survey with the UTR-2 Radio Telescope. Radio Phys. Radio Astron. vol. 10, is. 3, pp. 244–253. (in Russian).25. KRYMKIN, V. V. and SIDORCHUK, M. A., 1988. Observations of the galactic anticentre region in the direction of PKS0607+17 with the UTR-2 and RATAN-600 radio telescopes. Astron. Astrophys. vol. 200, no. 1-2, pp. 185–190.26. SIDORCHUK, M. A. and ABRAMENKOV, E. A., 2006. Supernova remnants HB3, 3C58 and IC443 and decameter waves. Radio Phys. Radio Astron. vol. 11, is. 2, pp. 134–154. (in Russian).27. BRUCK, YU. M., ULYANOV, O. M. and USTIMENKO, B. YU., 1986. Detection and investigation of the radio emission of the pulsar PSR 1530+27 at 25 MHz. Sov. Astron. vol. 30, is. 5, pp. 574–576.28. ULYANOV, O. M., ZAKHARENKO, V. V., KONOVALENKO, A. A., LECACHEUX, A., ROSOLEN, C. and RUCKER, H. O., 2006. Detection of individual pulses from pulsars В0809+74; В0834+06; В0943+10; В0950+08 and В1133+16 in the decameter wavelengths. Radio Phys. Radio Astron. vol. 11, is. 2, pp. 113–133. (in Russian).29. ZAKHARENKO, V. V., VASYLIEVA, I. Y., KONOVALENKO, A. A., ULYANOV, O. M., SERYLAK, M., ZARKA, P., GRIEßMEIER, J.-M., COGNARD, I. and NIKOLAENKO, V. S., 2013. Detection of decametre wavelength pulsed radio emission of 40 known pulsars. Mon. Not. R. Astron. Soc. vol. 431, is. 4, pp. 3624–3641. DOI: https://doi.org/10.1093/mnras/stt47030. ULYANOV, O. M., SKORYK, A. O., SHEVTSOVA, A. I., PLAKHOV, M. S. and ULYANOVA, O. O., 2015. Detection of the fine structure of the pulsar J0953+0755 radio emission in the decametre wave range. Mon. Not. R. Astron. Soc. vol. 455, is. 1, pp. 150–157. DOI: 10.1093/ mnras/stv217231. VASYLIEVA, I. Y., ZAKHARENKO, V. V., KONOVALENKO, A. A., ZARKA, P., ULYANOV, O. M., SHEVTSOVA, A. I. and SKORYK, A. O., 2014. Decameter Pulsar/Transient Survey of the Northern Sky. Radio Phys. Radio Astron. vol. 19, is. 3, pp. 197–205. DOI:https://doi.org/10.15407/rpra19.03.19732. KONOVALENKO, A. A., STEPKIN, S. V. and SHALUNOV, D. V., 2001. Low-Frequency Carbon Recombina tion Lines. Radio Phys. Radio Astron. vol. 6, is. 1, pp. 21–31.33. KONOVALENKO, A. A. and STEPKIN, S. V., 2005. Radio Recombination Lines. In: L. I. GURVITS, S. FREY, and S. RAWLINGS, eds. Radio Astronomy from Karl Jansky to Microjansky. Budapest: EAS Publicaions Series, vol. 15, pp. 271–295. DOI: https://doi.org/10.1051/eas:200515834. STEPKIN, S. V., KONOVALENKO, A. A., KANTHARIA, N. G. and UDAYA SHANKAR, N., 2007. Radio recombination lines from the largest bound atoms in space. Mon. Not. R. Astron. Soc. vol. 374, is. 3, pp. 852–856.DOI: https://doi.org/10.1111/j.1365-2966.2006.11190.x35. SIDORCHUK, K. M., KONOVALENKO, A. A., RUCKER, H. O., LECACHEUX, A., DENIS, L., SIDORCHUK, M. A., RASHKOVSKY, S. L., DOROVSKY, V. V. and ZAKHARENKO, V. V., 2005. New methods and equipment of decametric radioa stronomy for continuum observation at the UTR-2 radio telescope. Kinemat. Phys. Celest. Bodies. vol. 21, is. 5, pp. 57–60.36. BRAUDE, S. YA., RASHKOVSKY, S. L., SIDORCHUK, K. M., SIDORCHUK, M. A., SOKOLOV, K. P., SHARYKIN, N. K. and ZAKHARENKO, S. M., 2002. Decametric survey of discrete sources in the northersky. XIIIa. The catalogue of sources in declination range +30 to +40 . Astrophys. Space Sci. vol. 280, is. 3, pp. 235–300. DOI: https://doi.org/10.1023/A:101553410884937. VASILENKO, N. M. and SIDORCHUK, M. A., 2015. Brightness temperature and spectral index of extragalactic background at decameter wavelengths. Radio Phys. Radio Astron. vol. 20, is. 3, pp. 205–215. (in Russian). DOI:https://doi.org/10.15407/rpra20.03.20438. ZARKA, P., BOUGERET, J.-L., BRIAND, C., CECCONI, B., FALCKE, H., GIRARD, J., GRIEßMEIER, J.-M., HESS, S., KLEIN-WOLT, M., KONOVALENKO, A., LAMY, L., MIMOUN, D. and AMINAEI, A., 2012. Planetary and exoplanetary low frequency radio observations from the Moon. Planet. Space Sci. vol. 74, is. 1, pp. 156–166. DOI: https://doi.org/10.1016/j.pss.2012.08.00439. KARLSSON, R., RUCKER, H. O., MANN, G., KONOVALENKO, A. A., BREITLING, F., DOROVSKYY, V. V. and VOCKS, C., 2011. Combined Radio Observations with LOFAR and the Giant Ukrainian Radio Telescope. In: H. O. RUCKER, W. S. KURTH, P. LOUARN and G. FISCHER, eds. Planetary Radio Emissions VII, Proceedings of the 7th International Workshop. Vienna, Austria, September 15-17, 2010. Vienna: Austrian Academy of Sciences Press, pp. 513–520. DOI: https://doi.org/10.1553/PRE7s51340. GIRARD, J. N., ZARKA, P., TAGGER, M., DENIS, L., CHARRIES, D., KONOVALENKO, A. and BOONE, F., 2012. Antenna design and distribution of the LOFAR superstation. Comptes Rendus Physique. vol. 13, is. 1,pp. 33–37. DOI: https://doi.org/10.1016/j.crhy.2011.11.004