[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5303/JKAS.2017.50.3.41

PHOTOMETRIC STUDY OF NPA ROTATOR (5247) KRYLOV

Lee, Hee-Jae (Department of Astronomy and Space Science, Chungbuk National University)
Moon, Hong-Kyu (Korea Astronomy and Space Science Institute)
Kim, Myung-Jin (Korea Astronomy and Space Science Institute)
Kim, Chun-Hwey (Department of Astronomy and Space Science, Chungbuk National University)
Durech, Josef (Institute of Astronomy, Faculty of Mathematics and Physics, Charles University)
Choi, Young-Jun (Korea Astronomy and Space Science Institute)
Oh, Young-Seok (Korea Astronomy and Space Science Institute)
Park, Jintae (Korea Astronomy and Space Science Institute)
Roh, Dong-Goo (Korea Astronomy and Space Science Institute)
Yim, Hong-Suh (Korea Astronomy and Space Science Institute)
Cha, Sang-Mok (Korea Astronomy and Space Science Institute)
Lee, Yongseok (Korea Astronomy and Space Science Institute)

Publication Information

Journal of The Korean Astronomical Society / v.50, no.3, 2017 , pp. 41-49 More about this Journal

Abstract

We conduct BVRI and R band photometric observations of asteroid (5247) Krylov from January 2016 to April 2016 for 51 nights using the Korea Microlensing Telescope Network (KMTNet). The color indices of (5247) Krylov at the light curve maxima are determined as $B-V=0.841{\pm}0.035$ , $V-R=0.418{\pm}0.031$ , and $V-I=0.871{\pm}0.031$ where the phase angle is $14.1^{\circ}$ . They are acquired after the standardization of BVRI instrumental measurements using the ensemble normalization technique. Based on the color indices, (5247) Krylov is classified as a S-type asteroid. Double periods, that is, a primary period $P_1=82.188{\pm}0.013h$ and a secondary period $P_2=67.13{\pm}0.20h$ are identified from period searches of its R band light curve. The light curve phases with $P_1$ and this indicate that it is a typical Non-Principal Axis (NPA) asteroid. We discuss the possible causes of its NPA rotation.

Keywords

minor planets, asteroids: individual: (5247) Krylov; minor planets, asteroids: non-principal axis rotation; telescopes: KMTNet; technique: photometric;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Bertin, E. 2005, Automatic Astrometric and Photometric Calibration with SCAMP, ASPC, 351, 112
2	Bowell, E., Hapke, B., & Domingue, D., et al. 1989, Application of Photometric Models to Asteroids, in Binzel, R. P., Gehrels, T., & Matthews, M. S., Asteroids II (Tucson: Univ. Arizona Press), 524
3	Buchheim, R. K. 2010, Methods and Lessons Learned Determining the H-G Parameters of Asteroid Phase Curves, SASS, 29, 101
4	Carruba, V. 2009, An Analysis of the Region of the Phocaea Dynamical Family, MNRAS, 398, 1512 DOI
5	Dandy, C. L., Fitzsimmons, A., & Collander-Brown, S. J. 2003, Optical Colors of 56 Near-Earth Objects: Trends with Size and Orbit, Icarus, 163, 363 DOI
6	Farinella, P., Vokrouhlicky, D., & Hartmann, W. K. 1998, Meteorite Delivery via Yarkovsky Orbital Drift, Icarus, 132, 378 DOI
7	Gil-Hutton, R. 2006, Identication of Families among Highly Inclined Asteroids, Icarus, 183, 93 DOI
8	Gilliland, R. L., & Brown, T. M. 1988, Time-Resolves CCD Photometry of an Ensemble of Star, PASP, 100, 754 DOI
9	Harris, A. W. 1994, Tumbling Asteroids, Icarus, 107, 209 DOI
10	Hudson, R. S., & Ostro, S. J. 1995, Shape and Non-Principal Axis Spin State of Asteroid 4179 Toutatis, Science, 270, 84 DOI
11	Jordi, K., Grebel, E. K., & Ammon, K. 2006, Empirical Color Transformations between SDSS Photometry and other Photometric Systems, A&A, 460, 339 DOI
12	Kaasalainen, M. 2001, Interpretation of Lightcurves of Precessing Asteroids, A&A, 376, 302 DOI
13	Karachkina, L. G. 1982, The Minor Planet Circulars/Minor Planets and Comets, MPC, 8723
14	Kim, M.-J. 2014, PhD thesis, Yonsei University, Korea
15	Kim, S.-L., Park, B.-G., & Chun, M.-Y. 1999, Variable Stars in the Open Cluster Mel 71, A&A, 348, 795
16	Kim, S.-L., Lee, C.-U., & Park, B.-G., et al. 2016, KMT-NET: A Network of 1.6 M Wide-Field Optical Telescopes Installed at Three Southern Observatories, JKAS, 49, 37
17	Lenz, P., & Breger, M. 2005, Period04 User Guide, CoAst, 146, 53
18	Marsden, B. G., & Williams, G. V. 1993, The Minor Planet Circulars/Minor Planets and Comets, MPC, 22507
19	Moon, H.-K, Kim, M.-J., & Yim, H.-S., et al. 2015. International Astronomical Union Symposium, 318, 206
20	Munari, U., Henden, A., & Frigo, A., et al. 2014, APASS Landolt-Sloan BVgri Photometry of Rave Stars. I. DATA, Effective Temperatures, and Reddenings, AJ, 148, 81 DOI
21	Pravec, P., Harris, A. W., & Scheirich, P., et al. 2005. Tumbling Asteroids, Icarus, 173, 108 DOI
22	Pravec, P., Scheirich, P., & Durech, J., et al. 2014, The Tumbling Spin State of (99942) Apophis, Icarus, 233, 48 DOI
23	Scheirich, P., Durech, J., & Pravec, P., et al. 2010. The Shape and Rotation of Asteroid 2008 TC3, M&PS, 45, 1804
24	Sperl, M. 1998, Manual for Period98: V1.0.4; A Period Search-Program for Windows and Unix, CoAst, 111, 1
25	Usui, F., Kuroda, D., & Muller, T. G., et al. 2011, AcuA: the AKARI/IRC Mid-infrared Asteroid Survey, PASJ, 63, 1117 DOI
26	Veres, P., Jedicke, R., & Fitzsimmons, A., et al. 2015, Absolute Magnitudes and Slope Parameters for 250,000 Asteroids Observed by Pan-STARRS PS1-Preliminary Results, Icarus, 261, 34 DOI
27	Warner, B. D., Harris, A. W., & Pravec, P. 2009, The Asteroid Lightcurve Database, Icarus, 202, 134 DOI