Current Status of KMTNet/DEEP-South Collaboration Research for Comets and Asteroids Research between SNU and KASI

  • BACH, Yoonsoo P. (Department of Physics and Astronomy, Seoul National University) ;
  • YANG, Hongu (Department of Physics and Astronomy, Seoul National University) ;
  • KWON, Yuna G. (Department of Physics and Astronomy, Seoul National University) ;
  • LEE, Subin (Department of Physics and Astronomy, Seoul National University) ;
  • KIM, Myung-Jin (Korea Astronomy and Space Science Institute) ;
  • CHOI, Young-Jun (Korea Astronomy and Space Science Institute) ;
  • Park, Jintae (Korea Astronomy and Space Science Institute) ;
  • ISHIGURO, Masateru (Department of Physics and Astronomy, Seoul National University) ;
  • Moon, Hong-Kyu (Korea Astronomy and Space Science Institute)
  • Published : 2017.10.10

Abstract

Korea Microlensing Telescope Network (KMTNet) is one of powerful tools for investigating primordial objects in the inner solar system in that it covers a large area of the sky ($2{\times}2$ degree2) with a high observational cadence. The Deep Ecliptic Patrol of the Southern sky (DEEP-South) survey has been scanning the southern sky using KMTNet for non-bulge time (45 full nights per year) [1] since 2015 for examining color, albedo, rotation, and shape of the solar system bodies. Since 2017 January, we have launched a new collaborative group between Korea Astronomy and Space Science Institute (KASI) and Seoul National University (SNU) with support from KASI to reinforce mutual collaboration among these institutes and further to enhance human resources development by utilizing the KMTNet/DEEP-South data. In particular, we focus on the detection of comets and asteroids spontaneously scanned in the DEEP-South for (1) investigating the secular changes in comet's activities and (2) analyzing precovery and recovery images of objects in the NASA's NEOWISE survey region. In this presentation, we will describe our scientific objectives and current status on using KMTNet data, which includes updating the accuracy of the world coordinate system (WCS) information, finding algorithm of solar system bodies in the image, and doing non-sidereal photometry.

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