*Hiromichi Shigematsu¹, Koki Aizawa¹, Tomohiro Inoue^1,10, Harutou Tanabe^1,8, Keita Matsunaga^1,8, Taiki Kono^1,8, Kensuke Nakamura¹, Issei Hirata¹, Rin Matsubara¹, Asumi Katsuyama¹, Ryuma Murofushi^1,2, Kazunari Uchida¹, Makoto Uyeshima², Takao Koyama², Tasuku M. Hashimoto², Taro Nishimoto², Takahiro Akiyama², Atsushi Watanabe², Dan Muramatsu^2,11, Yasuo Matsunaga^2,10, Tatsuto Oishi^2,13, Ryokei Yoshimura³, Shintaro Komatsu³, Itaru Yoneda³, Tsutomu Miura³, Yasuto Tatsuyama³, Airi Nagaoka³, Ayano Nada³, Jun Nakagawa³, Kazuhide Tomisaka³, Masahiro Yoshikawa³, Hiroshi Ichihara⁴, Yasuo Ogawa⁵, Shogo Masuda^5,12, Norihiro Kitaoka⁵, Nagi Yamashita⁶, Miku Sakurai⁶, Kokoro Onaka⁶, Fumihisa Yoshizawa⁷, Ryutaro Semba⁸, Koki Sasaki⁸, Kazutaka Mannen⁹ (1. Kyushu University, 2. Earthquake Research Institute, University of Tokyo, 3. Disaster Prevention Research Institute, Kyoto University, 4. Earthquake and Volcano Research Center, Graduate School of Environmental Studies, Nagoya University, 5. Multidisciplinary Resilience Research Center, Tokyo Institute of Technology, 6. Earth-Science Laboratory, University of Hyogo, 7. National Research Institute for Earth Science and Disaster Resilience, 8. Japan Meteorological Agency, 9. Hot springs Institute of Kanagawa Prefecture, 10. National Institute of Advanced Industrial Science and Technology, 11. Institute of Seismology and Volcanology Faculty of Science, Hokkaido University, 12. Japan Organization for Metals and Energy Security, 13. Idemitsu Kosan Co., Ltd.)

Keywords:Hakone, Magneto-telluric, 3-D resistivity structure