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1. Y. Glinec, J. Faure, L. Le Dain, S. Darbon, T. Hosokai, J. J. Santos, E. Lefebvre, J. P. Rousseau, F. Burgy, B. Mercier, and V. Malka, Phys. Rev. Lett. 94, 025003 (2005).
2. R. Toth, J. C. Kieffer, S. Fourmaux, T. Ozaki, and A. Krol, Rev. Sci. Instrum. 76, 083701 (2005).
3. L. M. Chen, M. Kando, J. Ma, H. Kotaki, Y. Fukuda, Y. Hayashi, I. Daito, T. Homma, K. Ogura, M. Mori, A. S. Pirozhkov, J. Koga, H. Daido, S. V. Bulanov, T. Kimura, T. Tajima, and Y. Kato, Appl. Phys. Lett. 90, 211501 (2007).
4. K. Takano, K. Nemoto, T. Nayuki, Y. Oishi, T. Fujii, A. Zhidkov, E. Hotta, M. Todoriki, and S. Hasegawa, Appl. Phys. Lett. 92, 251502 (2008).
5. S. Kneip, C. McGuffey, F. Dollar, M. S. Bloom, V. Chvykov, G. Kalintchenko, K. Krushelnick, A. Maksimchuk, S. P. D. Mangles, T. Matsuoka, Z. Najmudin, C. A. J. Palmer, J. Schreiber, W. Schumaker, A. G. R. Thomas, and V. Yanovsky, Appl. Phys. Lett. 99, 093701 (2011).
6. S. Fourmaux, S. Corde, K. Ta Phuoc, P. Lassonde, G. Lebrun, S. Payeur, F. Martin, S. Sebban, V. Malka, A. Rousse, and J. C. Kieffer, Opt. Lett. 36, 2426 (2011).
7. Y. Oishi, T. Nayuki, C. Nakajima, T. Fujii, A. Zhidkov, and K. Nemoto, Jpn. J. Appl. Phys., Part 1 49, 046602 (2010).
8. L. Lawson, Mater. Eval. 60, 1295 (2002).
9. J. S. Ryu, S. W. Park, M. S. Kim, and Y. Yi, in Proc. 27th Int. Conf. IEEE Eng. Med. Biol. Soc. (2005), p. 1838.
10. R. D. Swift, Proc. SPIE 2936, 124 (1997).
11. H. Kuwabara, Y. Mori, and Y. Kitagawa, J. Plasma Fusion Res. 3, 003 (2008).
12. Y. Mori and Y. Kitagawa, Appl. Phys. B 110, 57 (2013).
13. S. C. Wilks, W. L. Kruer, M. Tabak, and A. B. Langdon, Phys. Rev. Lett. 69, 1383 (1992).
14. S. Ootsuka, Y. Mori, T. Makino, M. Ohta, H. Kuwabara, and Y. Kitagawa, Rev. Laser Eng. 38, 386 (2010).
15. J. H. Hubbell, Int. J. Appl. Radiat. Isot. 33, 1269 (1982).
16. K. Fujitaka, M. Abe, and S. Abe, in 3rd Int. Symp. Adv. Nucl. Engy. Res., Global environment and Nuclear Energy (1991), p. 76.
17. H. Kuwabara, Ph.D. thesis, Graduate School for the Creation of New Photonics Industries, Hamamatsu, 2008.
18. V. O. Klein and Y. Nishina, Z. Phys. 52, 853 (2003).
19. H. Schwoerer, B. Liesfeld, H.-P. Schlenvoigt, K.-U. Amthor, and R. Sauerbrey, Phys. Rev. Lett. 96, 014802 (2006).
20. Y. Mori, H. Kuwabara, K. Ishii, R. Hanayama, T. Kawashima, and Y. Kitagawa, Appl. Phys. Express 5, 056401 (2012).
21. K. T. Phuoc, S. Corde, C. Thaury, V. Malka, A. Tafzi, J. P. Goddet, R. C. Shah, S. Sebban, and A. Rousse, Nat. Photonics 6, 308 (2012).
22. S. Chen, N. D. Powers, I. Ghebregziabher, C. M. Maharjan, C. Liu, G. Golovin, S. Banerjee, J. Zhang, N. Cunningham, A. Moorti, S. Clarke, S. Pozzi, and D. P. Umstadter, Phys. Rev. Lett. 110, 155003 (2013).

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Ultra-intense laser-produced sub-ps X-ray pulses can detect backscattered signals from objects hidden in aluminium containers. Coincident measurements using primary X-rays enable differentiation among acrylic, copper, and lead blocks inside the container. Backscattering reveals the shapes of the objects, while their material composition can be identified from the modification methods of the energy spectra of backscattered X-ray beams. This achievement is an important step toward more effective homeland security.


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