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Pis'ma v Zhurnal Èksperimental'noi i Teoreticheskoi Fiziki, 2009, Volume 89, Issue 10, Pages 577–583 (Mi jetpl428)  
This article is cited in 10 scientific papers (total in 10 papers)

PLASMA, GASES

Ionography of nanostructures with the use of a laser plasma of cluster targets

A. Ya. Faenovab, T. A. Pikuzab, I. Fukudab, M. Kandob, Kh. Kotakib, T. Khommab, K. Kavaseb, T. Kameshimab, A. N. Pirozhkovb, A. Iogob, M. Tampob, M. Morib, Kh. Sakakib, I. Khayashib, T. Nakamurab, S. A. Pikuza, V. Kartasheva, I. Yu. Skobeleva, A. Dzhul'ettic, Ch. A. Chechettic, A. S. Boldarevd, V. A. Gasilovd, A. I. Magunove, S. Karf, M. Borgezif, P. Boltonb, Kh. Daidob, T. Tazhimab, I. Katog, S. V. Bulanoveb

a Scientific Association for High Temperatures
b Kansai Photon Science Institute JAEA, Kizugawa-city, Kyoto 619-0215, Japan
c ILIL-Istituto per i Processi Chimico-Fisici CNR, 56124 Pisa, Italy
d Institute for Mathematical Modelling, Russian Academy of Sciences
e General Physics Institute named after A. M. Prokhorov, Russian Academy of Sciences
f The Queen's University of Belfast, Belfast BT7 INN, United Kingdom
g The Graduate School for the Creation of New Photonics Industries, Hamamatsu, Japan
Full-text PDF (1844 kB) Citations (10)
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Abstract: It has been shown that a femtosecond plasma of cluster targets is an almost isotropic source of fast ions and, hence, can be used to obtain ionographic images with a wide field of view. The spatial resolution of the resulting ionographic images is no worse than 600 nm, which corresponds to a uniquely high value of about 105 of the ratio of the field of view to the resolution. The use of 100–300-keV ion fluxes ensures the sensitivity of the method to the sample thickness of no worse than 100 nm even for samples consisting of light chemical elements (C, H). The proposed method can be used to obtain images of low-contrast biological objects, thin films, membranes, and other nanostructured objects.
Received: 06.04.2009
English version:
Journal of Experimental and Theoretical Physics Letters, 2009, Volume 89, Issue 10, Pages 485–491
DOI: https://doi.org/10.1134/S0021364009100038
Bibliographic databases:
Document Type: Article
PACS: 07.77.Ka, 32.30.Rj, 52.38.Kd
Language: Russian


Citation: A. Ya. Faenov, T. A. Pikuz, I. Fukuda, M. Kando, Kh. Kotaki, T. Khomma, K. Kavase, T. Kameshima, A. N. Pirozhkov, A. Iogo, M. Tampo, M. Mori, Kh. Sakaki, I. Khayashi, T. Nakamura, S. A. Pikuz, V. Kartashev, I. Yu. Skobelev, A. Dzhul'etti, Ch. A. Chechetti, A. S. Boldarev, V. A. Gasilov, A. I. Magunov, S. Kar, M. Borgezi, P. Bolton, Kh. Daido, T. Tazhima, I. Kato, S. V. Bulanov, “Ionography of nanostructures with the use of a laser plasma of cluster targets”, Pis'ma v Zh. Èksper. Teoret. Fiz., 89:10 (2009), 577–583; JETP Letters, 89:10 (2009), 485–491
Linking options:
  • https://www.mathnet.ru/eng/jetpl428
  • https://www.mathnet.ru/eng/jetpl/v89/i10/p577
    • This publication is cited in the following 10 articles:
    1. Pu-Du Zhang, Wei-Quan Wang, Zhe-Min Li, Zi-Xuan Zhang, Ye-Chen Wang, Hong-Yu Zhou, Yan Yin, Acta Phys. Sin., 72:18 (2023), 184103  crossref
    2. S. A. Pikuz jr., I. Yu. Skobelev, A. Ya. Faenov, Ya. S. Lavrinenko, V. S. Belyaev, V. Yu. Klyushnikov, A. P. Matafonov, A. S. Rusetskii, S. N. Ryazantsev, A. V. Bakhmutova, High Temperature, 54:3 (2016), 428–446  mathnet  crossref  crossref  isi  elib
    3. Faenov A. Pikuz T. Kodama R., Laser-Driven Particle Acceleration Towards Radiobiology and Medicine, Biol. Med. Phys. Biomed. Eng., Biological and Medical Physics Biomedical Engineering, ed. Giulietti A., Springer, 2016, 271–294  crossref  isi
    4. Oks E., Dalimier E., Faenov A.Ya., Pikuz T., Fukuda Y., Jinno S., Sakaki H., Kotaki H., Pirozhkov A., Hayashi Y., Skobelev I., Kawachi T., Kando M., Kondo K., J. Phys. B-At. Mol. Opt. Phys., 47:22 (2014), 221001  crossref  adsnasa  isi  elib  scopus
    5. Daido H., Nishiuchi M., Pirozhkov A.S., Rep. Prog. Phys., 75:5 (2012), 056401  crossref  mathscinet  adsnasa  isi  elib  scopus
    6. A. Ya. Faenov, I. Yu. Skobelev, T. A. Pikuz, V. E. Fortov, A. S. Boldarev, V. A. Gasilov, L.-M. Cheh, L. Zhang, W. C. Yan, D. W. Yuan, J.-Y. Mao, Z.-H. Wang, J. Colgan, J. Abdallah, JETP Letters, 94:3 (2011), 171–176  mathnet  crossref  isi
    7. I. Yu. Skobelev, A. Ya. Faenov, T. A. Pikuz, S. A. Pikuz, V. E. Fortov, Y. Fukuda, Y. Hayashi, A. N. Pirozhkov, K. Kavase, Kh. Kotaki, T. Shimomura, H. Kiriyama, Y. Kato, M. Kando, JETP Letters, 94:4 (2011), 270–276  mathnet  crossref  isi
    8. Guduru D., Niepel M., Vogel J., Groth T., International Journal of Artificial Organs, 34:10 (2011), 963–985  crossref  mathscinet  isi  scopus
    9. Faenov A.Ya., Fukuda Y., Pikuz T.A., Kando M., Kotaki H., Homma T., Kawase K., Kameshima T., Daito I., Hayashi Y., Sakaki H., Bolton P., Pirozhkov A., Yogo A., Tampo M., Nakamura T., Mori M., Ogura K., Kawachi T., Daido H., Tajima T., Bulanov S.V., Faenov A.Ya., Pikuz T.A., Gasilov S.V., Skobelev I.Yu., Boldarev A.S., Gasilov V.A., Bulanov S.V., Magunov A.I., Kato Y., Journal of the Korean Physical Society, 56:1, Part 1 Sp. Iss. (2010), 279–286  crossref  adsnasa  isi  scopus
    10. JETP Letters, 92:6 (2010), 375–378  mathnet  crossref  isi
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