*Kentaro Sakai1, Kosuke Himeno2, Shuta J. Tanala3, Tatiana Pikuz2, Takafumi Asai4, Yuki Abe2, Takumi Minami2, Kazumasa Oda2, Soichiro Suzuki2, Fuka Nikaido2, Kiyochika Kuramoto2, Toshiharu Yasui2, Hideki Kohri2, Masato Kanasaki4, Kenji Kaji4, Hiromitsu Kiriyama5, Akira Kon5, Kotaro Kondo5, Nobuhiko Nakanii5, Wei-Yen Woon6, Che-Men Chu6, Kuan-Ting Wu6, Chun-Sung Jao7, Yao-Li Liu7, Shogo Isayama8, Atsushi O. Tokiyasu9, Harihara Sudhan Kumar9, Kentaro Tomita10, Yuji Fukuda5, Yasuhiro Kuramitsu2
(1. National Institute for Fusion Science, 2. Osaka University, 3. Aoyama Gakuin University, 4. Kobe University, 5. National Institutes for Quantum Science and Technology, 6. National Central University, 7. National Cheng Kung University, 8. Kyushu University, 9. Tohoku University, 10. Hokkaido University)
We have been developing the diagnostics of laser-plasma interaction with scattered intense laser. The images and spatially resolved spectra of scattered intense laser can be used to measure plasma structure and magnetic field, respectively.