日本地球惑星科学連合2015年大会

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セッション記号 M (領域外・複数領域) » M-TT 計測技術・研究手法

[M-TT41] インフラサウンド及び関連波動が繋ぐ多圏融合地球物理学の新描像

2015年5月26日(火) 09:00 〜 10:45 203 (2F)

コンビーナ:*山本 真行(高知工科大学 システム工学群)、新井 伸夫(名古屋大学減災連携研究センター)、座長:山本 真行(高知工科大学 システム工学群)、新井 伸夫(名古屋大学減災連携研究センター)

10:15 〜 10:30

[MTT41-06] インフラサウンド観測で捉えられた極端気象現象 -雷について-

新井 伸夫1、*村山 貴彦2岩國 真紀子2本橋 昌志2吉開 朋弘2野上 麻美2 (1.名古屋大学減災連携研究センター、2.日本気象協会)

キーワード:インフラサウンド, 極端気象現象, XRAIN, 雷

Recently, meteorological disturbances and localized concentrated heavy rainfall drastically developed thunderclouds, which can be attributed to global warming, cause disasters like debris. In order to detect such a localized concentrated heavy rainfall, X-band polarimetric radar information network system (XRAIN) is gradually deployed and operated in Japan. The radar system can detect regional scale distribution of cloud water and growing process of localized concentrated heavy rainfall. However, spacial scale of thunder and tornado is smaller than the resolution of the radar system.

Infrasound signal is generated by rapid compress atmospheric such as thunder and vortex rotation by wind. Infrasound array system can detect arrival direction, but it is difficult to estimate the distance from source to observation point only one Infrasound array system.

Many meteorological disturbance in combination with thunder occurred on the Kanto region in the summer of 2014. In order to evaluate meteorological disturbance more accurately, we set up new Infrasound array system in Saitama Prefecture in addition to the existing in Chiba Prefecture.

The back azimuth of signals at two Infrasound array system intersect, and the place was high precipitation intensity on XRAIN image.