@article{oai:repo.qst.go.jp:00048938,
 author = {Ya., Faenov A. and J.Coglan and A., Pikuz S. and Zhidkov, A. and A., Pikuz T. and Abdallah, Jr. J. and Tubman, E. and M., H. Butler N. and J., Dance R. and Yu., Skobelev I. and Z., Alkhimova M. and booth, N. and Green, J. and Gregory, C. and Andreev, A. and 西内, 満美子 and Sakaki, H. and Sagisaka, Akito and Pirozhkov, Alexander and Ogura, Koichi and Fukuda, Yuuji and Kanasaki, Masato and Hasegawa, Noboru and Nishikino, Masaharu and Kando, Masaki and Kawachi, Tetsuya and Kondo, Kiminori and McKenna, P. and J., Tallents G. and Woolsey, N. and Kodama, R. and 西内 満美子 and 榊 泰直 and 匂坂 明人 and ピロジコフ アレキサンダー and 小倉 浩一 and 福田 祐仁 and 金崎 真聡 and 長谷川 登 and 錦野 将元 and 神門 正城 and 河内 哲哉 and 近藤 公伯},
 journal = {Proceedings of the 15th International Conference on X-Ray Lasers},
 month = {May},
 note = {By using of high-resolution X-ray spectroscopic measurements and kinetic simulations, we demonstrate that the energy of femtosecond laser pulses is efficiently converted to X-ray radiation and produces exotic states in solid density plasma regions. It is shown that exotic hollow multicharged ions states can be obtained and studied not only by ultra-intense X-ray radiation of XFEL, but also upon using optical laser technology. We have concluded that observable features of the hollow-ion spectra are sensitive to such plasma parameters as density, temperature, hot-electron fraction, and intensity of X-ray pumping radiation and could be used for effective diagnostics of warm dense matter parameters.},
 pages = {149--158},
 title = {Ultra-intense X-Ray Radiation Photopumping of Exotic States of Matter by Relativistic Laser-Plasma in the Radiation-Dominated Kinetic Regime (RDKR)},
 volume = {202},
 year = {2018}
}