Research, Test and Operation Technology Grp.

Yasunori Nagata

  (永田 靖典)

Profile Information

Affiliation
Specially-appointed Assistant Professor, Institute of Space and Astronautical Science, Department of Space Flight Systems, Japan Aerospace Exploration Agency

J-GLOBAL ID
201801011372441836
researchmap Member ID
B000340761

Papers

 48
  • Takashi Miyashita, Yuji Sugihara, Yusuke Takahashi, Yasunori Nagata, Hisashi Kihara
    Journal of Physics D: Applied Physics, 57(32) 325206-325206, May 20, 2024  
    Abstract Communication blackouts during atmospheric reentry pose significant challenges to the safety and adaptability of spacecraft missions. This phenomenon, caused by the attenuation of electromagnetic waves by the plasma surrounding the spacecraft, disrupts communication with ground stations or orbiting satellites. Therefore, it is crucial to decrease the plasma density in the vicinity of the spacecraft to ensure an unobstructed electromagnetic wave communication path. This study proposes a methodology that involves the injection of gas from the vehicle’s wall to create an insulating layer near the surface. This thin layer maintains lower temperatures and reduced plasma density, enabling electromagnetic wave propagation without attenuation. Practical experiments were conducted in an arc-heating facility to simulate atmospheric reentry conditions. The results of the experiments provided empirical evidence of the effectiveness of the technique in mitigating communication blackout phenomena. Numerical fluid analysis within the wind tunnel chamber validated the formation of an air film layer near the experimental model owing to the injected gas. Schlieren imaging revealed distinctive jet shapes, which corroborated the findings of the numerical analysis. The wind tunnel tests that simulated atmospheric reentry environments confirmed the formation of an air film layer through gas injection, which substantiates the reduction in communication blackout. These results have the potential to improve communication reliability in space transport.
  • Hideto Takasawa, Tomoya Fujii, Yusuke Takahashi, Takahiro Moriyoshi, Hiroki Takayanagi, Yasunori Nagata, Kazuhiko Yamada
    CEAS Space Journal, Apr 26, 2024  
  • Kazuhiko YAMADA, Takahiro MORIYOSHI, Kazushige MATSUMARU, Hiroki KANEMARU, Takahiro ARAYA, Kojiro SUZUKI, Osamu IMAMURA, Daisuke AKITA, Yasunori NAGATA, Yasumasa WATANABE
    TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, 67(4) 224-233, 2024  

Misc.

 111

Books and Other Publications

 1
  • Marić Tomislav, Höpken Jens, Mooney Kyle, 柳瀬 真一郎, 高見 敏弘, 早水 庸隆, 早水 英美, 権田 岳, 武内 秀樹, 永田 靖典
    森北出版, 2017 (ISBN: 9784627670914)

Presentations

 67

Teaching Experience

 1

Research Projects

 6