HISAKI Project Team

奥村 真一郎

オクムラ シンイチロウ  (Shin-ichiro Okumura)

基本情報

所属
日本スペースガード協会 スペースガード研究センター 主任研究員 (スペースガード研究センター長・日本スペースガード協会理事長)
山陽学園大学 非常勤講師
東京電機大学 理工学研究科 非常勤講師
自然科学研究機構 国立天文台 ハワイ観測所岡山分室 特別客員研究員
国立研究開発法人宇宙航空研究開発機構 宇宙科学研究所 大学共同利用システム研究員
学位
博士(理学)(1997年3月 東京大学)

J-GLOBAL ID
200901076367782565
researchmap会員ID
5000014066

論文

 62
  • 奥村 真一郎, 浦川 聖太郎, 柳沢 俊史, 紅山 仁
    日本航空宇宙学会誌 72(6) 206-213 2024年6月5日  
    プラネタリーディフェンス活動において,地球に衝突する可能性のある,いわゆる地球接近天体を発見することがまずは必要である.そのような候補が見つかった場合に,見失ってしまわないように速やかに追加の位置測定観測を行い軌道を定めることが重要である.また,衝突の回避や衝突時の被害を小さくする検討のための情報として地球接近天体の素性を調べる物理的な観測も必要とされる.本稿ではプラネタリーディフェンスに向けた活動に関連して,美星スペースガードセンターでの観測活動,JAXAで開発した高速画像処理技術(重ね合わせ法),東京大学木曽観測所のトモエゴゼンカメラ,すばる望遠鏡の観測データから太陽系小天体を発見・報告できるウェブアプリケーションCOIASなど,国内における地球接近天体の観測活動について紹介する.
  • Kakeru Oshikiri, Masaomi Tanaka, Nozomu Tominaga, Tomoki Morokuma, Ichiro Takahashi, Yusuke Tampo, Hamid Hamidani, Noriaki Arima, Ko Arimatsu, Toshihiro Kasuga, Naoto Kobayashi, Sohei Kondo, Yuki Mori, Yuu Niino, Ryou Ohsawa, Shin-ichiro Okumura, Shigeyuki Sako, Hidenori Takahashi
    Monthly Notices of the Royal Astronomical Society 527(1) 334-345 2023年10月28日  査読有り
    ABSTRACT The population of optical transients evolving within a time-scale of a few hours or a day (so-called fast optical transients, FOTs) has recently been debated extensively. In particular, our understanding of extragalactic FOTs and their rates is limited. We present a search for extragalactic FOTs with the Tomo-e Gozen high-cadence survey. Using the data taken from 2019 August to 2022 June, we obtain 113 FOT candidates. Through light curve analysis and cross-matching with other survey data, we find that most of these candidates are in fact supernovae, variable quasars, and Galactic dwarf novae that were partially observed around their peak brightness. We find no promising candidate of extragalactic FOTs. From this non-detection, we obtain upper limits on the event rate of extragalactic FOTs as a function of their time-scale. For a very luminous event (absolute magnitude M < −26 mag), we obtain the upper limits of 4.4 × 10−9 Mpc−3 yr−1 for a time-scale of 4 h, and 7.4 × 10−10 Mpc−3 yr−1 for a time-scale of 1 d. Thanks to our wide (although shallow) surveying strategy, our data are less affected by the cosmological effects, and thus, give one of the more stringent limits to the event rate of intrinsically luminous transients with a time-scale of <1 d.
  • Masataka Aizawa, Kojiro Kawana, Kazumi Kashiyama, Ryou Ohsawa, Hajime Kawahara, Fumihiro Naokawa, Tomoyuki Tajiri, Noriaki Arima, Hanchun Jiang, Tilman Hartwig, Kotaro Fujisawa, Toshikazu Shigeyama, Ko Arimatsu, Mamoru Doi, Toshihiro Kasuga, Naoto Kobayashi, Sohei Kondo, Yuki Mori, Shin-ichiro Okumura, Satoshi Takita, Shigeyuki Sako
    Publications of the Astronomical Society of Japan 74(5) 1069-1094 2022年8月8日  査読有り
    Abstract We report on a one-second-cadence wide-field survey for M-dwarf flares using the Tomo-e Gozen camera mounted on the Kiso Schmidt telescope. We detect 22 flares from M3–M5 dwarfs with a rise time of 5 s ≲ trise ≲ 100 s and an amplitude of 0.5 ≲ ΔF/F⋆ ≲ 20. The flare light-curves mostly show steeper rises and shallower decays than those obtained from the Kepler one-minute cadence data and tend to have flat peak structures. Assuming a blackbody spectrum with a temperature of 9000–15000 K, the peak luminosities and energies are estimated to be 1029 erg s−1 ≲ Lpeak ≲ 1031 erg s−1 and 1031 erg ≲ Eflare ≲ 1034 erg, which constitutes the bright end of fast optical flares for M dwarfs. We confirm that more than $90\%$ of the host stars of the detected flares are magnetically active based on their Hα-emission-line intensities obtained by LAMOST. An estimated occurrence rate of detected flares is ∼0.7 per day per active star, indicating they are common in magnetically active M dwarfs. We argue that the flare light-curves can be explained by the chromospheric compression model: the rise time is broadly consistent with the Alfvén transit time of a magnetic loop with a length scale of lloop ∼ 104 km and a field strength of 1000 gauss, while the decay time is likely determined by the radiative cooling of the compressed chromosphere down near to the photosphere with a temperature of ≳ 10000 K. These flares from M dwarfs could be a major contamination source for a future search of fast optical transients of unknown types.
  • Jin Beniyama, Shigeyuki Sako, Ryou Ohsawa, Satoshi Takita, Naoto Kobayashi, Shin-ichiro Okumura, Seitaro Urakawa, Makoto Yoshikawa, Fumihiko Usui, Fumi Yoshida, Mamoru Doi, Yuu Niino, Toshikazu Shigeyama, Masaomi Tanaka, Nozomu Tominaga, Tsutomu Aoki, Noriaki Arima, Ko Arimatsu, Toshihiro Kasuga, Sohei Kondo, Yuki Mori, Hidenori Takahashi, Jun-ichi Watanabe
    PUBLICATIONS OF THE ASTRONOMICAL SOCIETY OF JAPAN 74(4) 877-903 2022年8月  査読有り
    We report the results of video observations of tiny (diameter less than 100 m) near-Earth objects (NEOs) with Tomo-e Gozen on the Kiso 105 cm Schmidt telescope. The rotational period of a tiny asteroid reflects its dynamical history and physical properties since smaller objects are sensitive to the Yarkovsky-O'Keefe-Radzievskii-Paddack (YORP) effect. We carried out video observations of 60 tiny NEOs at 2 fps from 2018 to 2021 and successfully derived the rotational periods and axial ratios of 32 NEOs including 13 fast rotators with rotational periods less than 60 s. The fastest rotator found during our survey is 2020 HS7 with a rotational period of 2.99 s. We statistically confirmed that there is a certain number of tiny fast rotators in the NEO population, which have been missed with all previous surveys. We have discovered that the distribution of the tiny NEOs in a diameter and rotational period (D-P) diagram is truncated around a period of 10 s. The truncation with a flat-top shape is not explained well by either a realistic tensile strength of NEOs or the suppression of YORP by meteoroid impacts. We propose that the dependence of the tangential YORP effect on the rotational period potentially explains the observed pattern in the D-P diagram.
  • Yuu Niino, Mamoru Doi, Shigeyuki Sako, Ryou Ohsawa, Noriaki Arima, Ji-an Jiang, Nozomu Tominaga, Masaomi Tanaka, Di Li, Chen-Hui Niu, Chao-Wei Tsai, Naoto Kobayashi, Hidenori Takahashi, Sohei Kondo, Yuki Mori, Tsutomu Aoki, Ko Arimatsu, Toshihiro Kasuga, Shin-ichiro Okumura
    ASTROPHYSICAL JOURNAL 931(2) 2022年6月  査読有り
    We conduct 24.4 fps optical observations of repeating fast radio burst (FRB) 20190520B using Tomo-e Gozen, a high-speed CMOS camera mounted on the Kiso 105 cm Schmidt telescope, simultaneously with radio observations carried out using the Five-hundred-meter Aperture Spherical radio Telescope (FAST). We succeeded in the simultaneous optical observations of 11 radio bursts that FAST detected. However, no corresponding optical emission was found. The optical fluence limits as deep as 0.068 Jy ms are obtained for the individual bursts (0.029 Jy ms on the stacked data) corrected for the dust extinction in the Milky Way. The fluence limit is deeper than those obtained in the previous simultaneous observations for an optical emission with a duration greater than or similar to 0.1 ms. Although the current limits on radio-optical spectral energy distribution (SED) of FRBs are not constraining, we show that SED models based on observed SEDs of radio variable objects such as optically detected pulsars, and a part of parameter spaces of theoretical models in which FRB optical emission is produced by inverse Compton scattering in a pulsar magnetosphere or a strike of a magnetar blastwave into a hot wind bubble, can be ruled out once a similar fluence limit as in our observation is obtained for a bright FRB with a radio fluence greater than or similar to 5 Jy ms.

MISC

 138

担当経験のある科目(授業)

 2

共同研究・競争的資金等の研究課題

 6

社会貢献活動

 1