• 제목/요약/키워드: Kepler space observatory

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인공위성을 이용한 심우주 관측 기술 (Deep Space Observatory Technology using Satellite)

  • 윤용식
    • 항공우주기술
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    • 제12권2호
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    • pp.64-73
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    • 2013
  • 심우주을 더욱 효율적으로 관측하기 위해서는 지구 대기권에 천체 망원경을 탑재한 인공위성을 운용하는 것이다. 미국과 EU 등 우주 선진국에서는 허블우주망원경, 케플러 및 허셜 우주 관측 위성 등에 의해 우주 정보를 획득하여 분석하고 있다. 본 논문에서는 외국의 주요 우주 관측 위성에 대한 사양 및 현황을 고찰하고, 국내의 심우주 탐사를 위한 기술과 계획 등에 대해 기술하고자 한다.

Meta-analysis for the studies on extrasolar planets using Kepler mission data

  • Jung, So-Yoon;Yoon, Tae Seog;Lee, Hyunsook
    • 천문학회보
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    • 제41권1호
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    • pp.78.4-79
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    • 2016
  • This study aims to overview research articles on extrasolar planets using Kepler mission data during the period of 2009-2015 in order to discover research trends in them. Kepler space observatory is a NASA space observatory for extrasolar planet expedition launched in March 2009, contributed to the discovery and tracking of extrasolar planets and its candidates. In order to achieve the goal of this study, we classified research subjects from studies on Kepler mission data year by year and found the most frequent research topics each year. We also conducted a comparative analysis on the research subjects based on time series and examined any changes with respect to the goal of Kepler mission. Statistical meta-analysis is employed as the analysis method for the key words presented in the research articles. This study is a part of on-going research to find the correlation between the physical parameters of the host star and extrasolar planets. The results of this study could offer new directions in researches utilizing Kepler mission data as those meta-analyses in social sciences often suggest new opportunities. We have high expectations that more extrasolar planet studies will follow as we make further progresses in various analyses.

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Photometric Observations of Eccentric Accretion in Algol-type Binary Stars

  • Reed, Phillip A.
    • Journal of Astronomy and Space Sciences
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    • 제29권2호
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    • pp.141-143
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    • 2012
  • Some Algol-type interacting binary stars exhibit strange photometric variations that can be phase-dependent and/or secular. This paper discusses the possibility of explaining these observed variations as resulting from an accretion structure eclipsing one or both of the stars. Some previous studies are reviewed and suggestions for future work are made, including the prospective of incorporating data from the Kepler Observatory.

Physical parameters of the detached eclipsing binary KIC3858884

  • 이충욱;김승리;이재우
    • 천문학회보
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    • 제36권2호
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    • pp.141.2-141.2
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    • 2011
  • We present physical parameters of the detached eclipsing binary KIC3858884, which has a d-Scuti type pulsating secondary component. To derive orbital elements from radial-velocity curve, high-resolution Echelle spectra were obtained at the Bohyunsan Optical Astronomy Observatory in Korea. The BOES spectra and Kepler photometric data were analyzed with JKTEBOP and Wilson-Devinney model for eclipsing light-curve synthesis and Period04 for pulsation frequency analysis. After the iterative curve fitting, we determined physical parameters of KIC3858884 as $M_1=2.02{\pm}0.23M_{\odot}$, $M_2=2.02{\pm}0.16M_{\odot}$, $R_1=3.61{\pm}0.12R_{\odot}$, $R_2=2.84{\pm}0.10R_{\odot}$, respectively.

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Orbital stability study and transit-timing variations of the extrasolar planetary system: K2-3

  • Choi, Beom-Kyu;Hinse, Tobias C.;Yoon, Tae Seog
    • 천문학회보
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    • 제41권1호
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    • pp.79.1-79.1
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    • 2016
  • We investigated the dynamical properties of the K2-3 multi-planet system. Recently three transiting planets are discovered using the extended Kepler2 (K2) mission (Crossfield et al. 2015). We extended their preliminary stability study by considering a substantial longer integration time. Since planet mass is not known from photometry we calculated exoplanets masses using empirical mass-radius relations (Weiss & Marcy 2014). Forward numerical integration was done using the MERCURY integration package (Chambers 1999). Our results demonstrate that this system is stable over a time scale of $10^8years$. Furthermore, we investigated the dynamical effects of a hypothetical planet in the semi-major axis vs eccentricity space. For stable orbits of the hypothetical planet we calculated transit-timing variation (TTV) and radial velocity signals. We find that for a hypothetical perturber with mass 1-13 Mjup, semi-major axis 0.2 - 0.8 AU and eccentricity 0.00-0.47 the following timing signals for the planet K2-3 b is ~ 5 sec, K2-3 c is ~ 130 sec and for K2-3 d is ~ 190 sec. The radial velocity signal of the hypothetical planet is ~ 4 m/s. Using typical transit-timing errors from the K2 mission, we find that the above hypothetical planet would not be detectable. Its radial velocity signal, however, would be detectable using the APF 2.4m telescope or HARPS at the ESO/La Silla Observatory in Chile.

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