Sergey Makarov2, Sergey Grigoryev2, *Tatiana Tatiana Pikuz1, Nail Inogamov3, Victor Khokhlov3, Norimasa Ozaki1, Masahiko Ishino4, Masaharu Nishikino4, Thanh-hung Dinh4, Tetsuya Kawachi4, Mikako Makita5, Motoaki Nakatsutsumi5, Thomas R. Preston5, Karen Appel5, Zuzana Konopkova5, Valerio Cerantola5, Erik Brambrink5, Jan-Patrick Schwinkendorf5, Istvan Mohacsi5, Ludovic Rapp6, Andrei Rode6, Eugene Gamaly6, Takahisa Shobu7, Aki Tominaga7, Hirotaka Nakamura1, Ryosuke Kodama1, Vasily Zhakhovsky2, Sergey Pikuz8, Ulf Zastrau5
(1. Osaka University, 2. Joint Institute for High Temperatures RAS, 3. Landau Institute for Theoretical Physics RAS, 4. Kansai Institute for Photon Science QST, 5. European XFEL, 6. Australian National University, 7. Material Science Research Center of Japan Atomic Energy Agency, 8. HB11 Energy Holdings)
The damage of the LiF crystal after irradiating it with the EuFEL pulses at photon energy 9 keV was investigated for delivered doses in the range of 2 –850 kJ/cm3 per pulse. Complexes analysis of the LiF sample showed the formation of the unexpected deep cylindrical cavity with a ratio diameter to a depth of more than 1: 100 at doses > 250 kJ/cm3. The result is important for material processing.