Journal of The Korean Astronomical Society (천문학회지)

The Korean Astronomical Society (한국천문학회)
권호 표지
DOI QR코드

DOI QR Code

The First Multi-Frequency Synthesis Space-VLBI Observations of 0059+581 with Radioastron

  • Received : 2023.01.10
  • Accepted : 2023.05.01
  • Published : 2023.12.30
Download PDF
⟨ Previous Next ⟩

Abstract

In this paper, we describe the first multi-frequency synthesis observations of blazar 0059+581 made with the Radioastron space-ground interferometer in conjunction with the Korean VLBI Network (KVN), Medicina and Torun ground telescopes. We conducted these observations to assess the spaceground interferometer multi-frequency mode capability for the first time.

Keywords

Acknowledgement

The RadioAstron project was led by the Astro Space Center of the Lebedev Physical Institute of the Russian Academy of Sciences and the Lavochkin Scientific and Production Association under a contract with the State Space Corporation ROSCOSMOS, in collaboration with partner organizations in Russia and other countries. This work is based on observations carried out using Korean VLBI Network antennas operated by Korean Astronomy and Space Science Institute (KASI). It is partly based on observations with the Medicina (Noto) telescope operated by INAF - Istituto di Radioastronomia. This work is also based in part on observations carried out using the 32-meter radio telescope operated by Torun Centre for Astronomy of Nicolaus Copernicus University in Torun (Poland) and supported by a Polish Ministry of Science and Higher Education SpUB grant.

References

  1. Algaba, J.-C., Zhao, G.-Y., Lee, S.-S., et al. 2015, JKAS, 48, 237
  2. Andreyanov, V. V., Biriukov, A. V., Vasil'Kov, V. I., et al. 2007, in Radioastronomical Tools and Techniques, ed. N. S. Kardashev & S. A. Dagkesamanskii, 17
  3. Andrianov, A. S., Guirin, I. A., Kostenko, V. I., et al. 2019, in ASP Conf. Ser., Vol. 521, Astronomical Data Analysis Software and Systems XXVI, ed. M. Molinaro, K. Shortridge, & F. Pasian, 323
  4. Dodson, R., Jung, T., Rioja, M., et al. 2016, in URSI Asia-Pacific Radio Science Conference (URSI AP-RASC), 44
  5. Dodson, R., Rioja, M. J., Molina, S. N., & Gomez, J. L. 2017, ApJ, 834, 177
  6. Fan, J.-H., Yang, J.-H., Tao, J., Huang, Y., & Liu, Y. 2010, PASJ, 62, 211
  7. Han, S.-T., Lee, J.-W., Lee, B., et al. 2017, J Infrared Millim Terahertz Waves, 38, 1487
  8. Han, S. T., Lee, J. W., Kang, J., et al. 2012, in Proc. of the 11th European VLBI Network Symposium & Users Meeting. 9-12 October, 59
  9. Hodgson, J. A., Lee, S.-S., Zhao, G.-Y., et al. 2016, JKAS, 49, 137
  10. Homan, D. C., Cohen, M. H., Hovatta, T., et al. 2021, ApJ, 923, 67
  11. Hovatta, T., Aller, M. F., Aller, H. D., et al. 2014, AJ, 147, 143
  12. Kardashev, N. S., Alakoz, A. V., Kovalev, Y. Y., et al. 2015, Sol. Syst. Res., 49, 573
  13. Kardashev, N. S., Khartov, V. V., Abramov, V. V., et al. 2013, Astron. Rep., 57, 153
  14. Kovalev, Y. 2021a, in 43rd COSPAR Scientific Assembly. Held 28 January - 4 February, Vol. 43, 1435
  15. Kovalev, Y. 2021b, in Nuclear Activity in Galaxies Across Cosmic Time, ed. M. Povic, P. Marziani, J. Masegosa, H. Netzer, S. H. Negu, & S. B. Tessema, Vol. 356, 256
  16. Kovalev, Y. A., Vasil'kov, V. I., Popov, M. V., et al. 2014, Cosm. Res., 52, 393
  17. Kovalev, Y. Y., Kellermann, K. I., Lister, M. L., et al. 2005, AJ, 130, 2473
  18. Kovalev, Y. Y., Kardashev, N. S., Sokolovsky, K. V., et al. 2020, Adv. Space Res., 65, 705
  19. Likhachev, S. 2005, in ASP Conf. Ser., Vol. 340, Future Directions in High Resolution Astronomy, ed. J. Romney & M. Reid, 608
  20. Likhachev, S., Kogan, L., Fomalont, E., & Owen, F. 2009, in ASP Conf. Ser., Vol. 402, Approaching Micro-Arcsecond Resolution with VSOP-2: Astrophysics and Technologies, ed. Y. Hagiwara, E. Fomalont, M. Tsuboi, & M. Yasuhiro, 444
  21. Likhachev, S. F., Kostenko, V. I., Girin, I. A., et al. 2017, J. Astron. Instrum., 6, 1750004
  22. Likhachev, S. F., Ladygin, V. A., & Guirin, I. A. 2006, Radiophys. Quantum Electron., 49, 499
  23. Likhachev, S. F., Rudnitskiy, A. G., Shchurov, M. A., et al. 2022, MNRAS, 511, 668
  24. Likhachev, S. F., Girin, I. A., Avdeev, V. Y., et al. 2020, Astron. Comput., 33, 100426
  25. Lister, M. L., Homan, D. C., Kellermann, K. I., et al. 2021, ApJ, 923, 30
  26. Liu, J., Bignall, H., Krichbaum, T., et al. 2018, Galaxies, 6, 49
  27. Paliya, V. S., Ajello, M., Cao, H. M., et al. 2021, VizieR Online Data Catalog, J/ApJ/897/177
  28. Pyatunina, T. B., Gabuzda, D. C., Jorstad, S. G., et al. 2006, Astron. Rep., 50, 468
  29. Raymond, A. W., Palumbo, D., Paine, S. N., et al. 2021, ApJS, 253, 5
  30. Rioja, M., & Dodson, R. 2011, AJ, 141, 114
  31. Rioja, M., Dodson, R., Gomez, J., et al. 2017, Galaxies, 5, 9
  32. Rioja, M., Dodson, R., Malarecki, J., & Asaki, Y. 2011, AJ, 142, 157
  33. Rioja, M. J., Dodson, R., Jung, T., & Sohn, B. W. 2015, AJ, 150, 202
  34. Rudnitskiy, A. G., Mzhelskiy, P. V., Shchurov, M. A., Syachina, T. A., & Zapevalin, P. R. 2022, Acta Astron., 196, 29
  35. Sowards-Emmerd, D., Romani, R. W., Michelson, P. F., Healey, S. E., & Nolan, P. L. 2005, ApJ, 626, 95
  36. Terasranta, H., Achren, J., Hanski, M., et al. 2004, A&A, 427, 769
  37. Varenius, E., Maio, F., Le Bail, K., & Haas, R. 2022, Exp. Astron., 54, 137
  38. Yoo, S., Lee, S.-S., Kim, S.-H., & An, H. 2021, J. Astron. Space Sci., 38, 193
  39. Zhao, G.-Y., Algaba, J. C., Lee, S. S., et al. 2018, AJ, 155, 26
  40. Zhao, G.-Y., Jung, T., Sohn, B. W., et al. 2019, JKAS, 52, 23