Journal of The Korean Astronomical Society (천문학회지)

The Korean Astronomical Society (한국천문학회)
권호 표지
DOI QR코드

DOI QR Code

CCD PHOTOMETRY OF STANDARD STARS AT MAIDANAK ASTRONOMICAL OBSERVATORY IN UZBEKSTAN: TRANSFORMATIONS AND COMPARISONS

  • Lim, Beomdu (Department of Astronomy and Space Science, Sejong University) ;
  • Sung, Hwan-Kyung (Department of Astronomy and Space Science, Sejong University) ;
  • Bessell, M.S. (Research School of Astronomy & Astrophysics, Australian National University) ;
  • Karimov, R. (Ulugh Beg Astronomical Institute) ;
  • Ibrahimov, M. (Ulugh Beg Astronomical Institute)
  • Published : 2009.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

Observation of standard stars is of crucial importance in stellar photometry. We have studied the standard transformation relations of the UBV RI CCD photometric system at the Maidanak Astronomical Observatory in Uzbekistan. All observations were made with the AZT-22 1.5m telescope, SITe 2k CCD or Fairchild 486 CCD, and standard Bessell UBV RI filters from 2003 August to 2007 September. We observed many standard stars around the celestial equator observed by SAAO astronomers. The atmospheric extinction coefficients, photometric zero points, and time variation of photometric zero points of each night were determined. Secondary extinction coefficients and photometric zero points were very stable, while primary extinction coefficients showed a distinct seasonal variation. We also determined the transformation coefficients for each filter. For B, V, R, and I filters, the transformation to the SAAO standard system could be achieved with a straight line or a combination of two straight lines. However, in the case of the U filter and Fairchild 486 CCD combination, a significant non-linear correction term - related to the size of Balmer jump or the strength of the Balmer lines - of up to 0:08 mags was required. We found that our data matched well the SAAO photometry in V, B - V, V - I, and R - I. But in U - B, the difference in zero point was about 3.6 mmag and the scatter was about 0.02 mag. We attribute the relatively large scatter in U -B to the larger error in U of the SAAO photometry. We confirm the mostly small differences between the SAAO standard UBV RI system and the Landolt standard system. We also attempted to interpret the seasonal variation of the atmospheric extinction coefficients in the context of scattering sources in the earth's atmosphere.

Keywords

References

  1. Bessell, M. S., 2006, Standard Photometric Systems, ARAA, 43, 293 https://doi.org/10.1146/annurev.astro.41.082801.100251
  2. Bessell, M. S., 1990, UBV RI Passbands, PASP, 102, 1181 https://doi.org/10.1086/132749
  3. Bessell, M. S., 1995, UBV RI Systems: Resolving Different Versions , PASP, 107, 672 https://doi.org/10.1086/133607
  4. Cousins, A. W. J., 1978, Intrinsic Lines in the Cape-Kron BV RI System, MNSSA, 37, 62
  5. Golay, M., 1974, in Introduction to Astronomical photometry, D. Reidel, Dordrecht, p48
  6. Johnson, H. L. & Morgan, W. W., 1953, Fundermental Stellar Photometry for Standards of Spectral Type on the Revised System of the Yerkes Spectral Atlas, ApJ, 117, 313 https://doi.org/10.1086/145697
  7. Johnson, H. L., 1966, Astronomical Measurements in the Infrared, Ann. Rev. A & A, 4, 193 https://doi.org/10.1146/annurev.aa.04.090166.001205
  8. Kilkenny, D., Van Wyk, F., Roberts, G., Marang, F., & Cooper, D., 1998, Supplementary southern standards for UBV (RI)c photometry, MNRAS, 294, 93 https://doi.org/10.1046/j.1365-8711.1998.01222.x
  9. Landolt, A. U., 1973, UBV photoelectric sequences in the celestial equatorial Selected Areas 92-115, AJ, 78, 959 https://doi.org/10.1086/111503
  10. Landolt, A. U., 1983, UBVRI photometric standard stars around the celestial equator, AJ, 88, 439 (L83) https://doi.org/10.1086/113329
  11. Landolt, A. U. 1992, UBV RI Photometric Standard Stars in the Magnitude Range 11.5 < V < 16.0 Around the Celestial Equator, AJ, 104, 340 (L92) https://doi.org/10.1086/116242
  12. Landolt, A. U., 2007, UBV RI Photometric Standard Stars around the Sky at -$50^{\circ}$ Declination, AJ, 133, 2502 https://doi.org/10.1086/518000
  13. Lim, B. D., Sung, H., Karimov, R., & Ibrahimov, M. 2008, Characteristics of The Fairchild 486 CCD at Maidanak Astronomical Observatory in Uzbekistan, PKAS, 23, 1 https://doi.org/10.5303/PKAS.2008.23.1.001
  14. Menzies, J. W., Marang, F., Laing, J. D., Coulson, I. M., & Engelbrecht, C. A., 1991, UBV (RI)C photometry of equatorial standard stars. A direct comparison between the northern and southern systemsm, MNRAS, 248, 642 (M91) https://doi.org/10.1093/mnras/248.4.642
  15. Sung, H. & Bessell, M. S., 2000, Standard Stars: CCD photometry, Transformations and Comparisons, PASA, 17, 244 (SB00) https://doi.org/10.1071/AS00041
  16. Sung, H., Bessell, M. S., & Lee, S.-W. 1998, UBV RI and H$\alpha$ Photometry of the Young Open Cluster NGC 6231, AJ, 115, 734 https://doi.org/10.1086/300207
  17. Sung, H., 1995, UBV Photometry of 8 Young Open Cluters, PhD Thesis, Seoul National University
  18. Sung, H. et al. 2001, Photometry Accuracy of the SITe 2k CCD at BOAO, Korean Astronmical Observatory, Technical report, no.01-002-039
  19. Sung, H., Ibrahimov, M., Kahharov, B. & Karimov, R., 2005, Standard Transformation Relation of UBAI AZT-22 1.5m Telescope, BKAS, v.30, no.1, pp.73.2-73.2

Cited by

  1. THE SEJONG OPEN CLUSTER SURVEY (SOS). IV. THE YOUNG OPEN CLUSTERS NGC 1624 AND NGC 1931 vol.149, pp.4, 2015, https://doi.org/10.1088/0004-6256/149/4/127
  2. Seeing and atmospheric extinction at Mt. Maidanak observatory from observations with the 1.5-m AZT-22 telescope vol.54, pp.11, 2010, https://doi.org/10.1134/S1063772910110077
  3. Sejong Open Cluster Survey (SOS) – II. IC 1848 cluster in the H ii region W5 West vol.438, pp.2, 2013, https://doi.org/10.1093/mnras/stt2283
  4. OPTICAL IMAGES AND SOURCE CATALOG OFAKARINORTH ECLIPTIC POLE WIDE SURVEY FIELD vol.190, pp.1, 2010, https://doi.org/10.1088/0067-0049/190/1/166
  5. THE STARBURST CLUSTER WESTERLUND 1: THE INITIAL MASS FUNCTION AND MASS SEGREGATION vol.145, pp.2, 2013, https://doi.org/10.1088/0004-6256/145/2/46
  6. An Optical and Infrared Photometric Study of the Young Open Cluster IC 1805 in the Giant H ii Region W4 † vol.230, pp.1, 2017, https://doi.org/10.3847/1538-4365/aa6d76
  7. UBVI CCD Photometry of NGC 7790 vol.36, pp.7, 2015, https://doi.org/10.5467/JKESS.2015.36.7.661