日本地球惑星科学連合2023年大会

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[E] 口頭発表

セッション記号 S (固体地球科学) » S-EM 固体地球電磁気学

[S-EM14] Electric, magnetic and electromagnetic survey technologies and scientific achievements

2023年5月23日(火) 15:30 〜 16:45 103 (幕張メッセ国際会議場)

コンビーナ:馬場 聖至(東京大学地震研究所)、後藤 忠徳(兵庫県立大学大学院理学研究科)、Yuguo Li(Ocean University of China)、Wiebke Heise(GNS Science, PO Box 30368, Lower Hutt, New Zealand)、Chairperson:Yuguo Li(Ocean University of China)、石須 慶一(兵庫県立大学)

16:30 〜 16:45

[SEM14-10] Application of EM-ACROSS to investigate underground structures of the Kusatsu-Shirane Volcano, Japan

*石須 慶一1小川 康雄2、Tseng Kuo Hsuan2芹田 創平2、國友 孝洋6南 拓人4市原 寛3Caldwell Grant5Heise Wiebke5、Bertrand Ted5 (1.兵庫県立大学、2.東京工業大学、3.名古屋大学、4.神戸大学、5.GNS Science、6.御嶽山科学研究所)

キーワード:比抵抗、電磁探査、CSEM

We have constructed a controlled source electromagnetic transmission system called ElectroMagnetic-Accurately Controlled, Routinely Operated, Signal System (EM-ACROSS). The basic idea of EM-ACROSS is to enable long stacking times by repeatedly transmitting a precisely controlled signal. As a result of long-time stacking, a high signal-to-noise ratio can be achieved. High-precision signal control of the transmitter is conducted by synchronizing with a 10 MHz GPS signal. In addition to the basic concept, our EM-ACROSS has the following feature: two dipole antennae simultaneously transmit independent sets of signal time series consisting of eight sinusoids. The two sets are slightly different in frequency and can be recorded by the receiver without interference. This allows efficient data acquisition without turning off single dipole transmission. Our EM-ACROSS was applied to an investigation of the Kusatsu-Shirane Volcano, Japan. Phreatic eruptions frequently occur at the Yugama crater of the Volcano. A 0.5 km north-south dipole and a 1.0 km east-west dipole were placed at about 3 km from the Yugama crater. The current values were about 5 A for the north-south dipole and 3 A for the east-west dipole. Eight receivers were placed around the Yugama crater to record the electromagnetic fields from the transmitters. The processed electromagnetic data with a stacking period of 1 week showed a high signal-to-noise ratio even at receiving points 3 km apart from the transmitter.